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Chapter 1. Elementary and Secondary Mathematics and Science Education

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TABLE	TITLE	VIEW	PDF	EXCEL
1-1	Indicators of elementary and secondary school mathematics and science education	View Table	Download PDF	Download XLSX
1-2	Average scores of students in grades 4, 8, and 12 on the main NAEP mathematics assessment, by socioeconomic status and sex within race or ethnicity: 2015	View Table	Download PDF	Download XLSX
1-3	Average scores of students in grades 4, 8, and 12 on the main NAEP science assessment, by socioeconomic status and sex within race or ethnicity: 2015	View Table	Download PDF	Download XLSX
1-4	Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment, by socioeconomic status and sex within race or ethnicity: 2014	View Table	Download PDF	Download XLSX
1-5	Average mathematics and science assessment test scores of children who were in kindergarten for the first time during the 2010–11 school year and in third grade during the 2013–14 school year, by child and family characteristics	View Table	Download PDF	Download XLSX
1-6	Average TIMSS mathematics scores of U.S. students in grades 4 and 8, by selected student and school characteristics: 2015	View Table	Download PDF	Download XLSX
1-7	Average TIMSS mathematics scores of students in grades 4 and 8, by education system: 2015	View Table	Download PDF	Download XLSX
1-8	Average TIMSS science scores of U.S. students in grades 4 and 8, by selected student and school characteristics: 2015	View Table	Download PDF	Download XLSX
1-9	Average TIMSS science scores of students in grades 4 and 8, by education system: 2015	View Table	Download PDF	Download XLSX
1-10	Average advanced mathematics and physics scores of U.S. TIMSS Advanced students, by selected student and school characteristics: 2015	View Table	Download PDF	Download XLSX
1-11	Average scores of U.S. 15-year-old students on the PISA mathematics and science literacy scales, by selected student characteristics: 2015	View Table	Download PDF	Download XLSX
1-12	Average mathematics literacy assessment scores for 15-year-olds participating in PISA, by education system: 2015	View Table	Download PDF	Download XLSX
1-13	Average science literacy assessment scores for 15-year-old students participating in PISA, by education system: 2015	View Table	Download PDF	Download XLSX
1-14	Highest-level mathematics course enrollment of high school completers, by student and family characteristics: 2013	View Table	Download PDF	Download XLSX
1-15	Highest-level mathematics course enrollment of high school completers, by socioeconomic status within race or ethnicity: 2013	View Table	Download PDF	Download XLSX
1-16	Science course enrollment of high school completers, by student and family characteristics: 2013	View Table	Download PDF	Download XLSX
1-17	Science course enrollment of high school completers, by socioeconomic status within race or ethnicity: 2013	View Table	Download PDF	Download XLSX
1-18	Average high school credits earned in technology-related courses and percentage of students earning any credit, for fall 2009 ninth graders, by sex: 2013	View Table	Download PDF	Download XLSX
1-19	Percentage of principals reporting that their schools offer at least one computer science course, by grade level, size, and locale: 2016	View Table	Download PDF	Download XLSX
1-20	Students who took or passed an AP exam in high school, by subject: 2016	View Table	Download PDF	Download XLSX
1-21	Students taking AP exams, by subject: 2006 and 2016	View Table	Download PDF	Download XLSX
1-22	Access to high-level mathematics and sciences courses among students at low versus high black and Latino enrollment schools: 2013–14	View Table	Download PDF	Download XLSX
1-23	On-time graduation rates of U.S. public high school students, by student characteristics: 2011−15	View Table	Download PDF	Download XLSX
1-24	High school graduation rates, by OECD country: 2014	View Table	Download PDF	Download XLSX
1-25	Relative standing of U.S. high school graduation rates among OECD countries: 2008, 2010, 2012, and 2014	View Table	Download PDF	Download XLSX
1-26	Chapter summary of U.S. performance on K–12 STEM indicators	View Table	Download PDF	Download XLSX
1-27	Summary of long- and short-term trends in U.S. performance on K–12 STEM indicators	View Table	Download PDF	Download XLSX

Chapter 2. Higher Education in Science and Engineering

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TABLE	TITLE	VIEW	PDF	EXCEL
2-1	Degree-granting institutions, by control and level of institution: 2015–16	View Table	Download PDF	Download XLSX
2-2	Degree awards, by degree level and institutional control: 2015	View Table	Download PDF	Download XLSX
2-3	Distribution of U.S. citizen and permanent resident S&E doctorate recipients whose baccalaureate origin is a high-Hispanic-enrollment institution, by ethnicity and race: 2011–15	View Table	Download PDF	Download XLSX
2-4	U.S. citizen and permanent resident S&E doctorate recipients whose baccalaureate origin is an HBCU, by ethnicity and race: 2011–15	View Table	Download PDF	Download XLSX
2-5	U.S. citizen and permanent resident S&E doctorate recipients who reported earning college credit from a community or 2-year college, by ethnicity and race: 2011–15	View Table	Download PDF	Download XLSX
2-6	Recent recipients of S&E degrees who attended community college, by sex, race and ethnicity, citizenship status, and parents' education level: 2015	View Table	Download PDF	Download XLSX
2-7	Enrollment in Title IV institutions, by distance education enrollment status, control, and level of institution: Fall 2015	View Table	Download PDF	Download XLSX
2-8	Net tuition and fees for full-time undergraduate students by institutional control: 2006–07 and 2011–12 through 2016–17	View Table	Download PDF	Download XLSX
2-9	Primary support mechanisms for S&E doctorate recipients, by 2010 Carnegie classification of doctorate-granting institution: 2015	View Table	Download PDF	Download XLSX
2-10	International students enrolled in U.S. higher education institutions, by broad field and academic level: 2012–17	View Table	Download PDF	Download XLSX
2-11	Retention and attainment of postsecondary students at the first academic institution attended through June 2014, by level of first institution and major field category: 2013–14	View Table	Download PDF	Download XLSX
2-12	Major switching among first-time postsecondary students beginning 4-year colleges and universities in 2011–12: 2013–14	View Table	Download PDF	Download XLSX
2-13	Median number of years from entering graduate school to receipt of S&E doctorate, by 2010 Carnegie classification of doctorate-granting institution: 2000–15	View Table	Download PDF	Download XLSX
2-14	Recipients of U.S. S&E doctorates on temporary visas, by country or economy of origin: 1995–2015	View Table	Download PDF	Download XLSX
2-15	Asian recipients of U.S. S&E doctorates on temporary visas, by field and country or economy of origin: 1995–2015	View Table	Download PDF	Download XLSX
2-16	European recipients of U.S. S&E doctorates on temporary visas, by field and region or country of origin: 1995–2015	View Table	Download PDF	Download XLSX
2-17	North American, South American, and Middle Eastern recipients of U.S. S&E doctorates on temporary visas, by field and region and country of origin: 1995–2015	View Table	Download PDF	Download XLSX

Chapter 3. Science and Engineering Labor Force

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TABLE	TITLE	VIEW	PDF	EXCEL
3-1	Major sources of data on the U.S. labor force	View Table	Download PDF	Download XLSX
3-2	Classification of degree fields and occupations	View Table	Download PDF	Download XLSX
3-3	Measures and size of U.S. S&E workforce: 2015 and 2016	View Table	Download PDF	Download XLSX
3-4	Educational background of college graduates employed in S&E occupations, by broad S&E occupational category: 2015	View Table	Download PDF	Download XLSX
3-5	Relationship of highest degree to job among S&E highest degree holders not in S&E occupations, by degree level: 2015	View Table	Download PDF	Download XLSX
3-6	Employment sector of scientists and engineers, by broad occupational category and degree field: 2015	View Table	Download PDF	Download XLSX
3-7	Self-employed scientists and engineers, by education, occupation, and type of business: 2015	View Table	Download PDF	Download XLSX
3-8	Employment in S&E occupations, by major industry: May 2016	View Table	Download PDF	Download XLSX
3-9	Metropolitan areas with largest proportion of workers in S&E occupations: May 2016	View Table	Download PDF	Download XLSX
3-10	R&D activity rate of scientists and engineers employed in S&E occupations, by broad occupational category and level of highest degree: 2015	View Table	Download PDF	Download XLSX
3-11	Scientists and engineers participating in work-related training, by labor force status and occupation: 2015	View Table	Download PDF	Download XLSX
3-12	Scientists and engineers who are working involuntarily out of field, by S&E degree field: Selected years, 2003–15	View Table	Download PDF	Download XLSX
3-13	Annual salaries in science, technology, and related occupations: May 2013–May 2016	View Table	Download PDF	Download XLSX
3-14	Labor market indicators for recent S&E degree recipients up to 5 years after receiving degree, by level and field of highest degree: 2015	View Table	Download PDF	Download XLSX
3-15	Employment characteristics of recent SEH doctorate recipients up to 3 years after receiving doctorate, by field of degree: 2001–15	View Table	Download PDF	Download XLSX
3-16	Employed SEH doctorate recipients holding tenured and tenure-track appointments at academic institutions, by field of and years since degree: Selected years, 1993–2015	View Table	Download PDF	Download XLSX
3-17	Median salaries for recent SEH doctorate recipients up to 5 years after receiving degree, by field of degree and employment sector: 2015	View Table	Download PDF	Download XLSX
3-18	Median salaries for recent U.S. SEH doctorate recipients in postdoc and non-postdoc positions up to 5 years after receiving degree: 2015	View Table	Download PDF	Download XLSX
3-19	Racial and ethnic distribution of U.S. residents, and of employed individuals in S&E occupations, with S&E degrees, and with college degrees: 2015	View Table	Download PDF	Download XLSX
3-20	Distribution of workers in S&E occupations, by race and ethnicity: Selected years, 1993–2015	View Table	Download PDF	Download XLSX
3-21	Racial and ethnic distribution of employed individuals with S&E highest degree, by field of highest degree: 2015	View Table	Download PDF	Download XLSX
3-22	Racial and ethnic distribution of employed individuals with S&E highest degree, by level of highest degree: 2015	View Table	Download PDF	Download XLSX
3-23	Racial and ethnic distribution of employed women in S&E occupations and with S&E highest degrees: 1995 and 2015	View Table	Download PDF	Download XLSX
3-24	Median annual salary among S&E highest degree holders working full time, by sex, race, and ethnicity: 1995, 2003, and 2015	View Table	Download PDF	Download XLSX
3-25	Foreign-born workers in S&E occupations, by education level: 1993, 2003, and 2015	View Table	Download PDF	Download XLSX
3-26	Annual salaries for new H-1B visa recipients, by occupation: FY 2016	View Table	Download PDF	Download XLSX
3-27	Temporary visa holders receiving S&E doctorates in 2010 and 2005 who were in the United States in 2015, by S&E degree field	View Table	Download PDF	Download XLSX
3-28	Temporary visa holders receiving S&E doctorates in 2010 and 2005 who were in the United States in 2015, by country of citizenship at time of degree	View Table	Download PDF	Download XLSX
3-A	Bureau of Labor Statistics projections of employment and job openings in S&E and other selected occupations: 2014–24	View Table	Download PDF	Download XLSX
3-B	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution and region of employment: 2001–15 combined	View Table	Download PDF	Download XLSX
3-C	Region and state of doctoral institution and employment of doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector: 2001–15 combined	View Table	Download PDF	Download XLSX
3-D	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution: 5-year cohorts, 2001–15	View Table	Download PDF	Download XLSX
3-E	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment: 5-year cohorts, 2001–15	View Table	Download PDF	Download XLSX
3-F	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution: 5-year cohorts, 2001–15	View Table	Download PDF	Download XLSX

Chapter 4. Research and Development: U.S. Trends and International Comparisons

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TABLE	TITLE	VIEW	PDF	EXCEL
4-1	U.S. R&D expenditures, by performing sector and source of funds: 2008–15	View Table	Download PDF	Download XLSX
4-2	Annual rates of growth in U.S. R&D expenditures, total and by performing sectors: 1988–2015	View Table	Download PDF	Download XLSX
4-3	U.S. R&D expenditures, by performing sector, source of funds, and type of work: 2015	View Table	Download PDF	Download XLSX
4-4	U.S. R&D expenditures by type of work: Selected years, 1970–2015	View Table	Download PDF	Download XLSX
4-5	International comparisons of gross domestic expenditures on R&D and R&D share of gross domestic product, by region, country, or economy: 2015 or most recent year	View Table	Download PDF	Download XLSX
4-6	Gross expenditures on R&D for selected countries, by performing sector and source of funds: 2015 or most recent year	View Table	Download PDF	Download XLSX
4-7	Gross expenditures on R&D for selected countries, by type of work: 2015 or most recent year	View Table	Download PDF	Download XLSX
4-8	Funds spent for business R&D performed in the United States: 2008–15	View Table	Download PDF	Download XLSX
4-9	Funds spent for business R&D performed in the United States, by source of funds and selected industry: 2015	View Table	Download PDF	Download XLSX
4-10	Sales and R&D intensity for companies that performed or funded R&D, by selected industry: 2015	View Table	Download PDF	Download XLSX
4-11	Funds spent for business R&D performed in the United States, by size of company: Selected years, 2008–15	View Table	Download PDF	Download XLSX
4-12	Business expenditures for R&D, by selected countries and top R&D-performing industries: 2014 or most recent year	View Table	Download PDF	Download XLSX
4-13	R&D performed by majority-owned affiliates of foreign companies in the United States, by selected industry of affiliate and investor country: 2014	View Table	Download PDF	Download XLSX
4-14	R&D performed abroad by majority-owned foreign affiliates of U.S. parent companies, by selected industry of affiliate and host region, country, or economy: 2014	View Table	Download PDF	Download XLSX
4-15	Federal obligations for R&D and R&D plant, by agency: FYs 2007–16	View Table	Download PDF	Download XLSX
4-16	Federal obligations for R&D and R&D plant, by agency and performer: FY 2015	View Table	Download PDF	Download XLSX
4-17	Federal obligations for R&D, by agency and type of work: FY 2015	View Table	Download PDF	Download XLSX
4-18	Government R&D support by major socioeconomic objectives, by selected countries or regions and years: Selected years, 2000–15	View Table	Download PDF	Download XLSX
4-A	Top 10 states in U.S. R&D performance, by sector and intensity: 2015	View Table	Download PDF	Download XLSX

Chapter 5. Academic Research and Development

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TABLE	TITLE	VIEW	PDF	EXCEL
5-1	R&D expenditures at universities and colleges, by field: FY 2016	View Table	Download PDF	Download XLSX
5-2	Higher education R&D expenditures, by source, character of work, and institution type: FYs 2012–16	View Table	Download PDF	Download XLSX
5-3	Higher education R&D expenditures, by Carnegie classification, institution type, and type of cost: FY 2016	View Table	Download PDF	Download XLSX
5-4	Top six federal agencies' shares of federally funded academic R&D expenditures: FYs 2007–16	View Table	Download PDF	Download XLSX
5-5	Federal funding of academic S&E R&D, by agency and field: FY 2016	View Table	Download PDF	Download XLSX
5-6	Growth of academic R&D expenditures, by field: FYs 1997–2016	View Table	Download PDF	Download XLSX
5-7	Total and institutionally funded R&D expenditures at universities and colleges, by fiscal year, institution type, and Carnegie classification: FYs 2012–16	View Table	Download PDF	Download XLSX
5-8	Higher education R&D expenditures at all universities and colleges financed by institutional funds, by source, fiscal year, institution type, and Carnegie classification: FYs 2012–16	View Table	Download PDF	Download XLSX
5-9	Condition of S&E research space in academic institutions, by field: FY 2015	View Table	Download PDF	Download XLSX
5-10	New construction of S&E research space in academic institutions, by field and time of construction: FYs 2006–17	View Table	Download PDF	Download XLSX
5-11	Tenure status, by field of S&E doctorate holders employed in academia: 1995 and 2015	View Table	Download PDF	Download XLSX
5-12	Tenure status of S&E doctorate holders employed in academia, by age: 1995 and 2015	View Table	Download PDF	Download XLSX
5-13	Tenure status of S&E doctorate holders employed in academia, by career stage and field of doctorate: 2015	View Table	Download PDF	Download XLSX
5-14	Women as a percentage of S&E doctorate holders employed in academia, by position: Selected years, 1973–2015	View Table	Download PDF	Download XLSX
5-15	Tenured S&E doctorate holders employed in academia, by sex and field: 1995 and 2015	View Table	Download PDF	Download XLSX
5-16	Underrepresented minorities as a percentage of S&E doctorate holders employed in academia, by position: Selected years, 1973–2015	View Table	Download PDF	Download XLSX
5-17	S&E doctorate holders employed in academia, by age: 1995 and 2015	View Table	Download PDF	Download XLSX
5-18	Full-time S&E faculty reporting research as primary work activity, by years since doctorate and degree field: 2015	View Table	Download PDF	Download XLSX
5-19	S&E doctorate holders employed in academia in postdoc positions, by demographic group: Selected years, 1973–2015	View Table	Download PDF	Download XLSX
5-20	S&E doctorate holders employed in academia in postdoc positions, by Carnegie classification of employer and years since doctorate: 2015	View Table	Download PDF	Download XLSX
5-21	NIH and NSF research grant applications and funding success rates: 2001–16	View Table	Download PDF	Download XLSX
5-22	S&E articles in all fields, by country or economy: 2006 and 2016	View Table	Download PDF	Download XLSX
5-23	S&E research portfolios of selected region, country, or economy, by field: 2016	View Table	Download PDF	Download XLSX
5-24	Share of U.S. S&E articles, by sector and field: 2016	View Table	Download PDF	Download XLSX
5-25	Shares of U.S. sector publications coauthored with other U.S. sectors and foreign institutions: 2006 and 2016	View Table	Download PDF	Download XLSX
5-26	International coauthorship of S&E articles with the United States, by selected country or economy: 2016	View Table	Download PDF	Download XLSX
5-27	Index of international collaboration on S&E articles, by selected country or economy pair: 2006 and 2016	View Table	Download PDF	Download XLSX
5-28	Relative citation index, by selected region, country, or economy pair: 2014	View Table	Download PDF	Download XLSX
5-A	EPSCoR and EPSCoR-like program budgets, by agency: FYs 2002–16	View Table	Download PDF	Download XLSX
5-B	Foreign-trained S&E doctorate holders employed in academia, by degree field and sex: 2015	View Table	Download PDF	Download XLSX
5-C	Foreign-trained S&E doctorate holders employed in academia, by research and teaching focus: 2015	View Table	Download PDF	Download XLSX
5-D	Number of titles and publications filtered from the Scopus database	View Table	Download PDF	Download XLSX

Chapter 6. Industry, Technology, and the Global Marketplace

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TABLE	TITLE	VIEW	PDF	EXCEL
6-1	Knowledge- and technology-intensive industries, by category	View Table	Download PDF	Download XLSX
6-2	Global value added for selected industries, by selected region, country, or economy: 2006 and 2016	View Table	Download PDF	Download XLSX
6-3	Global value added for selected industries, by selected region, country, or economy: 2006 and 2016	View Table	Download PDF	Download XLSX
6-A	Data Sources	View Table	Download PDF	Download XLSX

Chapter 7. Science and Technology: Public Attitudes and Understanding

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TABLE	TITLE	VIEW	PDF	EXCEL
7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	View Table	Download PDF	Download XLSX
7-2	Correct answers to scientific process questions: Selected years, 1999–2016	View Table	Download PDF	Download XLSX
7-A	U.S. survey data sources	View Table	Download PDF	Download XLSX
7-B	International survey data sources	View Table	Download PDF	Download XLSX

Chapter 8. Invention, Knowledge Transfer, and Innovation

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TABLE	TITLE	VIEW	PDF	EXCEL
8-1	U.S. university patent awards, by technology area: 2002 and 2016	View Table	Download PDF	Download XLSX
8-2	Selected technology areas of USPTO patents	View Table	Download PDF	Download XLSX
8-3	Federal laboratory technology transfer activity indicators, by selected agencies: FYs 2006, 2009, 2012, 2014	View Table	Download PDF	Download XLSX
8-4	Invention disclosures and patenting, by selected U.S. agencies with federal laboratories: FYs 2006–14	View Table	Download PDF	Download XLSX
8-5	U.S. business-sector publications with other U.S. sectors and foreign institutions: 2016	View Table	Download PDF	Download XLSX
8-6	U.S. utility patents citing S&E literature, by patent assignee sector, article author sector, and patent issue year: 2013–16	View Table	Download PDF	Download XLSX
8-7	SBIR and STTR awards funding, by type of award: Selected years, FYs 1983–2015	View Table	Download PDF	Download XLSX
8-9	U.S. companies introducing new or significantly improved products or processes, by company size and industry sector: 2013–15	View Table	Download PDF	Download XLSX
8-10	U.S. companies introducing new or significantly improved products or processes, by industry sector and industry proportions: 2013–15	View Table	Download PDF	Download XLSX
8-11	International comparison of innovation rate, product, and process, by country and firm size: 2012–14	View Table	Download PDF	Download XLSX
8-8	Examples of federal policies and programs supporting early-stage technology development and innovation	View Table	Download PDF	Download XLSX

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Chapter 1. Elementary and Secondary Mathematics and Science Education

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TABLE	TITLE	VIEW	PDF	EXCEL
1-1	Average scores of students in grades 4, 8, and 12 on the main NAEP mathematics assessment, by student characteristics: 1990–2015	View Table	Download PDF	Download XLSX
1-2	Students in grades 4, 8, and 12 scoring at or above the main NAEP's proficient level in mathematics for their grade, by student grade and characteristics: 1990–2015	View Table	Download PDF	Download XLSX
1-3	Average scores of students in grades 4, 8, and 12 on the main NAEP science assessment, by student grade and characteristics: 2009–15	View Table	Download PDF	Download XLSX
1-4	Students in grades 4, 8, and 12 scoring at or above the main NAEP's proficient level in science for their grade, by student grade and characteristics: 2009–15	View Table	Download PDF	Download XLSX
1-5	Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment and the percentage scoring proficient or above, by student characteristics: 2014	View Table	Download PDF	Download XLSX
1-6	Average scores of students in grade 4 on the main NAEP mathematics assessment, by race or ethnicity and sex, by state: 2000–15	View Table	Download PDF	Download XLSX
1-7	Students in grade 4 scoring at or above the main NAEP's proficient level in mathematics, by race or ethnicity and sex, by state: 2000–15	View Table	Download PDF	Download XLSX
1-8	Average scores of students in grade 4 on the main NAEP science assessment, by race or ethnicity and sex, by state: 2009 and 2015	View Table	Download PDF	Download XLSX
1-9	Students in grade 4 scoring at or above the main NAEP's proficient level in science, by race or ethnicity and sex, by state: 2009 and 2015	View Table	Download PDF	Download XLSX
1-10	Average scores of students in grade 8 on the main NAEP mathematics assessment, by race or ethnicity and sex, by state: 2000–15	View Table	Download PDF	Download XLSX
1-11	Students in grade 8 scoring at or above the main NAEP's proficient level in mathematics, by race or ethnicity and sex, by state: 2000–15	View Table	Download PDF	Download XLSX
1-12	Average scores of students in grade 8 on the main NAEP science assessment, by race or ethnicity and sex, by state: 2009–15	View Table	Download PDF	Download XLSX
1-13	Students in grade 8 scoring at or above the main NAEP's proficient level in science, by race or ethnicity and sex, by state: 2009–15	View Table	Download PDF	Download XLSX
1-14	Average mathematics assessment test scores of children who were in kindergarten for the first time in the 2010–11 school year and in third grade in the 2013–14 school year, by child and family characteristics	View Table	Download PDF	Download XLSX
1-15	Average science assessment test scores of children who were in kindergarten for the first time in the 2010–11 school year and in third grade in the 2013–14 school year, by child and family characteristics	View Table	Download PDF	Download XLSX
1-16	Average TIMSS mathematics scores of students in grade 4, by education system: 2015	View Table	Download PDF	Download XLSX
1-17	Average TIMSS mathematics scores of students in grade 8, by education system: 2015	View Table	Download PDF	Download XLSX
1-18	Average TIMSS science scores of students in grade 4, by education system: 2015	View Table	Download PDF	Download XLSX
1-19	Average TIMSS science scores of students in grade 8, by education system: 2015	View Table	Download PDF	Download XLSX
1-20	Average mathematics literacy assessment scores for 15-year-old students participating in PISA, by education system: 2015	View Table	Download PDF	Download XLSX
1-21	Average science literacy assessment scores for 15-year-old students participating in PISA, by education system: 2015	View Table	Download PDF	Download XLSX
1-22	Highest-level mathematics course enrollment of high school completers, by gender and socioeconomic status within race or ethnicity: 2013	View Table	Download PDF	Download XLSX
1-23	Highest-level mathematics course enrollment of high school completers, by student and family characteristics: 2013	View Table	Download PDF	Download XLSX
1-24	Science course enrollment of high school completers, by sex and socioeconomic status within race or ethnicity: 2013	View Table	Download PDF	Download XLSX
1-25	Science course enrollment of high school completers, by student and family characteristics: 2013	View Table	Download PDF	Download XLSX
1-26	Average high school credits earned in technology-related courses, and percentage earning any credit, for fall 2009 ninth graders, by student, family, and school characteristics: 2013	View Table	Download PDF	Download XLSX
1-27	High school graduates enrolled in college in October after completing high school, by demographic characteristics and institution type: 1975–2015	View Table	Download PDF	Download XLSX
1-28	Fall 2009 ninth graders considering a STEM major (among those with an identified major), by program level and student, family, and school characteristics: 2013	View Table	Download PDF	Download XLSX

Chapter 2. Higher Education in Science and Engineering

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TABLE	TITLE	VIEW	PDF	EXCEL
2-1	S&E degrees awarded, by degree level, Carnegie institution type, and field: 2015	View Table	Download PDF	Download XLSX
2-2	Degrees awarded by private for-profit academic institutions, by broad field and degree level: 2000–15	View Table	Download PDF	Download XLSX
2-3	Degrees awarded by private for-profit academic institutions, by field and degree level: 2015	View Table	Download PDF	Download XLSX
2-4	Distance education programs by institutional control, field, and degree level: 2015	View Table	Download PDF	Download XLSX
2-5	Undergraduate and total enrollment in higher education, by Carnegie institution type: 2000–15	View Table	Download PDF	Download XLSX
2-6	Average revenue per FTE, by institution type: 2000–15	View Table	Download PDF	Download XLSX
2-7	Average expenditures per FTE, by institution type: 2000–15	View Table	Download PDF	Download XLSX
2-8	Full-time S&E graduate students, by source and mechanism of primary support: 2000–15	View Table	Download PDF	Download XLSX
2-9	Full-time S&E graduate students, by field and mechanism of primary support: 2015	View Table	Download PDF	Download XLSX
2-10	Full-time S&E graduate students primarily supported by federal government, by field: 2000–15	View Table	Download PDF	Download XLSX
2-11	Proportion of full-time S&E graduate students primarily supported by federal government, by field and mechanism of primary support: 2015	View Table	Download PDF	Download XLSX
2-12	Full-time S&E graduate students primarily supported by federal government, by agency: 2000–15	View Table	Download PDF	Download XLSX
2-13	Full-time S&E graduate students primarily supported by federal government, by field and agency: 2015	View Table	Download PDF	Download XLSX
2-14	Doctorate recipients' source of primary support, by broad field of study, sex, citizenship, ethnicity, and race: 2013–15	View Table	Download PDF	Download XLSX
2-15	Amount of undergraduate and graduate debt of S&E doctorate recipients, by field: 2015	View Table	Download PDF	Download XLSX
2-16	International undergraduate student enrollment in U.S. universities, by field and selected places of origin: 2016 and 2017	View Table	Download PDF	Download XLSX
2-17	Undergraduate enrollment in engineering and engineering technology programs: 2006–15	View Table	Download PDF	Download XLSX
2-18	Earned associate’s degrees, by sex and field: 2000–15	View Table	Download PDF	Download XLSX
2-19	Earned associate’s degrees, by citizenship, field, race, and ethnicity: 2000–15	View Table	Download PDF	Download XLSX
2-20	Degrees awarded to U.S. citizens and permanent residents, by sex, race, ethnicity, broad field category, and degree level: 2000 and 2015	View Table	Download PDF	Download XLSX
2-21	Earned bachelor’s degrees, by sex and field: 2000–15	View Table	Download PDF	Download XLSX
2-22	Earned bachelor’s degrees, by citizenship, field, race, and ethnicity: 2000–15	View Table	Download PDF	Download XLSX
2-23	S&E graduate enrollment, by field: 2000–15	View Table	Download PDF	Download XLSX
2-24	First-time full-time S&E graduate students, by citizenship and field: 2000–15	View Table	Download PDF	Download XLSX
2-25	S&E graduate enrollment, by citizenship and field: 2000–15	View Table	Download PDF	Download XLSX
2-26	International graduate student enrollment in U.S. universities, by field and selected places of origin: 2016 and 2017	View Table	Download PDF	Download XLSX
2-27	Earned master’s degrees, by sex and field: 2000–15	View Table	Download PDF	Download XLSX
2-28	Earned master’s degrees, by citizenship, field, race, and ethnicity: 2000–15	View Table	Download PDF	Download XLSX
2-29	Earned doctoral degrees, by citizenship, field, and sex: 2000–15	View Table	Download PDF	Download XLSX
2-30	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by field: 1985–2015	View Table	Download PDF	Download XLSX
2-31	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by sex, citizenship, ethnicity, race, and broad field of study: 2015	View Table	Download PDF	Download XLSX
2-32	Earned doctoral degrees, by citizenship, field, race, and ethnicity: 2000–15	View Table	Download PDF	Download XLSX
2-33	Expenditures on tertiary education institutions as a percentage of GDP: 2005, 2008, and 2010–13	View Table	Download PDF	Download XLSX
2-34	First university degrees, by selected region, country, or economy: 2014 or most recent year	View Table	Download PDF	Download XLSX
2-35	S&E first university degrees, by selected Western or Asian country or economy and field: 2000–14	View Table	Download PDF	Download XLSX
2-36	First university degrees, by field, sex, and selected region, country, or economy: 2014 or most recent year	View Table	Download PDF	Download XLSX
2-37	Earned doctoral degrees, by selected region, country, or economy and field: 2014 or most recent year	View Table	Download PDF	Download XLSX
2-38	S&E doctoral degrees in the United States and selected European countries or economies, by field: 2000–14	View Table	Download PDF	Download XLSX
2-39	S&E doctoral degrees, by selected Asian country or economy and field: 2000–14	View Table	Download PDF	Download XLSX
2-40	Earned S&E doctoral degrees, by sex, selected region, country, or economy, and field: 2014 or most recent year	View Table	Download PDF	Download XLSX
2-41	Trends in population age 20–24, by selected country and region: Selected years: 2015–60	View Table	Download PDF	Download XLSX
2-42	Foreign S&E student enrollment in United Kingdom universities, by enrollment level, place of origin, and field: Academic years 2005–06 and 2015–16	View Table	Download PDF	Download XLSX
2-43	Foreign S&E student enrollment in Japanese universities, by enrollment level, place of origin, and field: 2004 and 2016	View Table	Download PDF	Download XLSX
2-44	S&E student enrollment in Canadian universities, by enrollment level, place of origin, and S&E field: 2004 and 2014	View Table	Download PDF	Download XLSX

Chapter 3. Science and Engineering Labor Force

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TABLE	TITLE	VIEW	PDF	EXCEL
3-1	S&E occupations in the 1960 U.S. Census and 2015 American Community Survey	View Table	Download PDF	Download XLSX
3-2	Bureau of Labor Statistics projections of occupational employment: 2014–24	View Table	Download PDF	Download XLSX
3-3	Scientists and engineers, by occupation and degree field: 2015	View Table	Download PDF	Download XLSX
3-4	Employment sector of S&E highest degree holders and workers in S&E occupations: 1993, 2003, and 2015	View Table	Download PDF	Download XLSX
3-5	Employment sector of S&E highest degree holders, by level and field of highest degree: 2015	View Table	Download PDF	Download XLSX
3-6	Scientists and engineers participating in work-related training, by labor force status, highest degree level, and sex: 2015	View Table	Download PDF	Download XLSX
3-7	Most important reason for scientists and engineers to participate in work-related training, by labor force status: 2015	View Table	Download PDF	Download XLSX
3-8	Unemployment rates of scientists and engineers, by level of highest degree and broad occupational category: Selected years, 2003–15	View Table	Download PDF	Download XLSX
3-9	Median annual salaries for employed college-educated individuals, by broad field and level of highest degree and broad occupational category: 2015	View Table	Download PDF	Download XLSX
3-10	Postgraduation plans of doctorate recipients with definite commitments, by broad field of study: Selected years, 1975–2015	View Table	Download PDF	Download XLSX
3-11	Age profile of employed scientists and engineers, by sex and field of highest degree: 2015	View Table	Download PDF	Download XLSX
3-12	Employed scientists and engineers, by sex and occupation: 2015	View Table	Download PDF	Download XLSX
3-13	Employed S&E highest degree holders, by sex and field of degree: 2015	View Table	Download PDF	Download XLSX
3-14	Employed S&E highest degree holders, by sex, race, ethnicity, field of highest degree, and broad occupational category: 2015	View Table	Download PDF	Download XLSX
3-15	Employed scientists and engineers, by race, ethnicity, and occupation: 2015	View Table	Download PDF	Download XLSX
3-16	Employed S&E highest degree holders, by race, ethnicity, and field of degree: 2015	View Table	Download PDF	Download XLSX
3-17	Estimate and median salary of full-time workers with highest degree in S&E field, by sex and occupation: 2015	View Table	Download PDF	Download XLSX
3-18	Estimate and median salary of full-time workers with highest degree in S&E field, by race, ethnicity, and occupation: 2015	View Table	Download PDF	Download XLSX
3-19	Race and ethnic distribution of workers in S&E occupations, by nativity: 2015	View Table	Download PDF	Download XLSX
3-20	Occupations of new H-1B visa recipients: FY 2016	View Table	Download PDF	Download XLSX
3-21	Plans of foreign recipients of U.S. doctorates to stay in the United States, by field of doctorate and place of origin: 2004–15	View Table	Download PDF	Download XLSX
3-22	R&D personnel in selected regions or countries: 2000–15	View Table	Download PDF	Download XLSX
3-23	Researchers as a share of total employment and GERD per researcher in selected regions, countries, or economies: 2015	View Table	Download PDF	Download XLSX

Chapter 4. Research and Development: U.S. Trends and International Comparisons

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TABLE	TITLE	VIEW	PDF	EXCEL
4-1	U.S. gross domestic product, R&D, and ratio of R&D to gross domestic product (and components): 1953–2015	View Table	Download PDF	Download XLSX
4-2	U.S. research and development expenditures, by performing sector and source of funds: 1953–2015	View Table	Download PDF	Download XLSX
4-3	U.S. basic research expenditures, by performing sector and source of funds: 1953–2015	View Table	Download PDF	Download XLSX
4-4	U.S. applied research expenditures, by performing sector and source of funds: 1953–2015	View Table	Download PDF	Download XLSX
4-5	U.S. development expenditures, by performing sector and source of funds: 1953–2015	View Table	Download PDF	Download XLSX
4-6	U.S. R&D expenditures, by source of funds and performing sector: 1953–2015	View Table	Download PDF	Download XLSX
4-7	U.S. basic research expenditures, by source of funds and performing sector: 1953–2015	View Table	Download PDF	Download XLSX
4-8	U.S. applied research expenditures, by source of funds and performing sector: 1953–2015	View Table	Download PDF	Download XLSX
4-9	U.S. development expenditures, by source of funds and performing sector: 1953–2015	View Table	Download PDF	Download XLSX
4-10	U.S. R&D expenditures, by state, performing sector, and funding sector: 2015	View Table	Download PDF	Download XLSX
4-11	U.S. R&D and gross domestic product, by state: 2015	View Table	Download PDF	Download XLSX
4-12	Gross expenditures on R&D and expenditures for R&D as a share of gross domestic product, for selected countries or regions: 1981–2015	View Table	Download PDF	Download XLSX
4-13	Funds spent for business R&D performed in the United States, by source of funds and selected industry: 2008–14	View Table	Download PDF	Download XLSX
4-14	Federal research and experimentation tax credit claims, by NAICS industry: 2001–13	View Table	Download PDF	Download XLSX
4-15	R&D performed by majority-owned affiliates of foreign companies in the United States, by region, country, or economy of ultimate beneficial owner: 1997–2014	View Table	Download PDF	Download XLSX
4-16	R&D performed by majority-owned affiliates of foreign companies in the United States, by NAICS industry of affiliate: 2007–14	View Table	Download PDF	Download XLSX
4-17	R&D performed abroad by majority-owned foreign affiliates of U.S. parent companies, by region, country, or economy: 1997–2014	View Table	Download PDF	Download XLSX
4-18	R&D performed abroad by majority-owned foreign affiliates of U.S. parent companies, by selected NAICS industry of affiliate: 2009–14	View Table	Download PDF	Download XLSX
4-19	R&D performed in the United States by U.S. multinational company parent companies, by NAICS industry: 2009–14	View Table	Download PDF	Download XLSX
4-20	Difference in federal R&D support, as reported by performers and federal agencies: 1985–2015	View Table	Download PDF	Download XLSX
4-21	Federal obligations for R&D and R&D plant, by type of work: FYs 1953–2016	View Table	Download PDF	Download XLSX
4-22	Federal funding for R&D and R&D plant, budget authority versus obligations: FYs 1953–2016	View Table	Download PDF	Download XLSX
4-23	Federal obligations for R&D and R&D plant, by agency, performer, and type of work: FY 2015	View Table	Download PDF	Download XLSX
4-24	Federal obligations for research, by agency and S&E field: FY 2015	View Table	Download PDF	Download XLSX
4-25	Federal obligations for research, by detailed S&E field: Selected years, FYs 1990–2015	View Table	Download PDF	Download XLSX

Chapter 5. Academic Research and Development

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TABLE	TITLE	VIEW	PDF	EXCEL
5-1	Total and federally financed higher education R&D expenditures, by type of R&D: FYs 1953–2016	View Table	Download PDF	Download XLSX
5-2	Sources of R&D funding for public and private academic institutions: Selected years, FYs 1990–2016	View Table	Download PDF	Download XLSX
5-3	Federally financed higher education R&D expenditures, by federal agency and field: FY 2016	View Table	Download PDF	Download XLSX
5-4	Higher education R&D expenditures, by source of funds and field: FY 2016	View Table	Download PDF	Download XLSX
5-5	Higher education R&D expenditures, by field: FYs 2007–16	View Table	Download PDF	Download XLSX
5-6	Higher education R&D expenditures at top 100 R&D-performing institutions, ranked by FY 2015 R&D expenditures: FYs 2007–16	View Table	Download PDF	Download XLSX
5-7	Expenditures for academic R&D passed through to and received by subrecipients: FYs 2012–16	View Table	Download PDF	Download XLSX
5-8	Research space at academic institutions, by S&E field: FYs 2007–15	View Table	Download PDF	Download XLSX
5-9	Source of funds for new construction of S&E research space at academic institutions, by year of project start and type of institution: FYs 2002–15	View Table	Download PDF	Download XLSX
5-10	Costs for repair and renovation of research space at academic institutions, by S&E field and time of repair and renovation: FYs 2014–17	View Table	Download PDF	Download XLSX
5-11	Source of funds for repair and renovation of S&E research space at academic institutions, by year of project start and type of institution: FYs 2002–15	View Table	Download PDF	Download XLSX
5-12	Current fund expenditures for research equipment at academic institutions, by S&E field: FYs 2002–16	View Table	Download PDF	Download XLSX
5-13	Federal share of current funding for research equipment at academic institutions, by S&E field: FYs 2002–16	View Table	Download PDF	Download XLSX
5-14	S&E doctorate holders employed in academia, by type of position and degree field: 1973–2015	View Table	Download PDF	Download XLSX
5-15	S&E doctorate holders employed in academia, by type of position, sex, and degree field: 1973–2015	View Table	Download PDF	Download XLSX
5-16	S&E doctorate holders employed in academia, by type of position, race, ethnicity, and degree field: 1973–2015	View Table	Download PDF	Download XLSX
5-17	S&E doctorate holders employed in academia, by type of position, degree field, and citizenship: 2015	View Table	Download PDF	Download XLSX
5-18	Age distribution of S&E doctorate holders in full-time faculty positions at research universities and other academic institutions: 1973–2015	View Table	Download PDF	Download XLSX
5-19	S&E doctorate holders employed in academia, by research priority, type of position, and degree field: 1973–2015	View Table	Download PDF	Download XLSX
5-20	Early career S&E doctorate holders employed in academia, by Carnegie classification of institution, years since doctorate, and type of position: Selected years, 1997–2015	View Table	Download PDF	Download XLSX
5-21	S&E doctorate holders employed in academia with federal support, by degree field, research activity, and type of position: 1973–2015	View Table	Download PDF	Download XLSX
5-22	S&E doctorate holders and full-time faculty with federal support, by degree field and Carnegie classification of employer: 2015	View Table	Download PDF	Download XLSX
5-23	S&E doctorate holders with federal support, by Carnegie classification of institution, race, ethnicity, and sex: 2015	View Table	Download PDF	Download XLSX
5-24	Early career S&E doctorate holders employed in academia with federal support, by degree field, years since doctorate, and type of position: 1973–2015	View Table	Download PDF	Download XLSX
5-25	Fields and subfields of S&E publications data	View Table	Download PDF	Download XLSX
5-26	Regions, countries, or economies in S&E publications data	View Table	Download PDF	Download XLSX
5-27	S&E articles in all fields combined, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-28	S&E articles in agricultural sciences, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-29	S&E articles in astronomy, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-30	S&E articles in biological sciences, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-31	S&E articles in chemistry, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-32	S&E articles in computer sciences, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-33	S&E articles in engineering, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-34	S&E articles in geosciences, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-35	S&E articles in mathematics, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-36	S&E articles in medical sciences, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-37	S&E articles in other life sciences, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-38	S&E articles in physics, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-39	S&E articles in psychology, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-40	S&E articles in social sciences, by region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-41	U.S. S&E articles, by field and sector: 2003–16	View Table	Download PDF	Download XLSX
5-42	S&E articles in all fields combined, by coauthorship attribute and selected region, country, or economy: 2003–16	View Table	Download PDF	Download XLSX
5-43	Indexes of internationally coauthored S&E publications, by selected region, country, or economy pairs: 2006 and 2016	View Table	Download PDF	Download XLSX
5-44	Internationally coauthored S&E publications, by selected region, country, or economy pairs: 2003 and 2016	View Table	Download PDF	Download XLSX
5-45	U.S. sector publications coauthored with other U.S. sectors and foreign institutions: 2006 and 2016	View Table	Download PDF	Download XLSX
5-46	U.S. S&E articles, by field and coauthorship attribute: 2003–16	View Table	Download PDF	Download XLSX
5-47	Citations from international S&E publications, by region, country, or economy: 1996–2014	View Table	Download PDF	Download XLSX
5-48	Share of S&E articles, by field, citation percentile, and country or economy of institutional author: 2004 and 2014	View Table	Download PDF	Download XLSX
5-49	Average relative citations for the United States, by scientific field: 1996–2014	View Table	Download PDF	Download XLSX
5-50	Average relative citations in the Scopus database, by region, country, or economy: 1996–2014	View Table	Download PDF	Download XLSX
5-51	Share of S&E publications in the top 1% of most-cited articles in the Scopus database, by region, country, or economy: 1996–2014	View Table	Download PDF	Download XLSX

Chapter 6. Industry, Technology, and the Global Marketplace

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TABLE	TITLE	VIEW	PDF	EXCEL
6-9	Value added of financial services, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-1	Regions, countries, or economies in world industry data	View Table	Download PDF	Download XLSX
6-2	Value added of KTI industries, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-3	Nominal GDP, by region, country, or economy: Selected years, 2001–16	View Table	Download PDF	Download XLSX
6-4	Value added of commercial KI services, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-5	Value added of education services, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-6	Value added of health care, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-7	Value added of MHT manufacturing industries, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-8	Value added of HT manufacturing industries, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-10	Value added of business services, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-11	Value added of information services, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-12	Value added of computer programming and related services, by region, country, or economy: 2001–2016	View Table	Download PDF	Download XLSX
6-13	Value added of all manufacturing industries, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-14	Value added of semiconductor industry, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-15	Value added of computers and office machinery, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-16	Value added of communications, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-17	Value added of pharmaceuticals industry, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-18	Value added of testing, measuring, and control instruments industry, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-19	Value added of aircraft and spacecraft, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-20	Value added of motor vehicles, trailers, and parts, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-21	Value added of chemicals excluding pharmaceuticals, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-22	Value added of machinery and equipment, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-23	Value added of electrical machinery, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-24	Value added of railroad and other transportation equipment, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-25	Exports and imports of commercial KI services, by selected region, country, or economy: 2008–16	View Table	Download PDF	Download XLSX
6-26	Exports and imports of high-technology products, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-27	Exports and imports of medium-high technology products, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-28	Exports and imports of other business services, by selected region, country, or economy: 2008–16	View Table	Download PDF	Download XLSX
6-29	Exports and imports of telecommunications and computer and information services, by selected region, country, or economy: 2008–16	View Table	Download PDF	Download XLSX
6-30	Exports and imports of financial services, by selected region, country, or economy: 2008–16	View Table	Download PDF	Download XLSX
6-31	Exports and imports of ICT products, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-32	Exports and imports of communications products, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-33	Exports and imports of computer products, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-34	Exports and imports of semiconductor products, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-35	Exports and imports of testing, measuring, and control instrument products, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-36	Exports and imports of pharmaceutical products, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-37	Exports and imports of aircraft and spacecraft, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-38	Regions, countries, or economies in world trade data	View Table	Download PDF	Download XLSX
6-39	Exports and imports of motor vehicles and parts, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-40	Exports and imports of chemicals excluding pharmaceuticals, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-41	Exports and imports of machinery, equipment, and appliances, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-42	Exports and imports of electrical machinery, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-43	Exports and imports of railroad equipment and other transportation products, by region, country, or economy: 2001–16	View Table	Download PDF	Download XLSX
6-44	Later-stage sustainable energy investment in all technologies and solar, by region, country, or economy: 2006–16	View Table	Download PDF	Download XLSX
6-45	Later-stage sustainable energy investment in wind and energy smart technologies, by region, country, or economy: 2004–16	View Table	Download PDF	Download XLSX
6-46	Government RD&D in sustainable energy technologies, by region, country, or economy: 2005–14	View Table	Download PDF	Download XLSX
6-47	Government RD&D in nuclear energy, by region, country, or economy: 2005–14	View Table	Download PDF	Download XLSX
6-48	Government RD&D in energy efficiency technology, by region, country, or economy: 2005–14	View Table	Download PDF	Download XLSX
6-49	Government RD&D in other power and storage technologies, by region, country, or economy: 2005–14	View Table	Download PDF	Download XLSX
6-50	Government RD&D in renewable energy, by region, country, or economy: 2005–14	View Table	Download PDF	Download XLSX
6-51	Government RD&D in solar energy, by region, country, or economy: 2005–14	View Table	Download PDF	Download XLSX
6-52	Government RD&D in wind energy, by region, country, or economy: 2005–14	View Table	Download PDF	Download XLSX
6-53	Government RD&D in biofuels, by region, country, or economy: 2005–14	View Table	Download PDF	Download XLSX
6-54	Government RD&D in carbon capture and storage, by region, country, or economy: 2005–14	View Table	Download PDF	Download XLSX
6-55	Government RD&D in hydrogen and fuel cells, by region, country, or economy: 2005–14	View Table	Download PDF	Download XLSX
6-56	USPTO patents granted in sustainable energy technologies, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-57	USPTO patents granted in alternative energy technologies, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-58	USPTO patents granted in energy storage technologies, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-59	USPTO patents granted in smart grid technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-60	USPTO patents granted in pollution mitigation technologies, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-61	USPTO patents granted in fuel cell technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-62	USPTO patents granted in bioenergy technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-63	USPTO patents granted in solar energy technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-64	USPTO patents granted in hybrid and electric vehicle technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-65	USPTO patents granted in wind energy technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-66	USPTO patents granted in nuclear energy technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-67	USPTO patents granted in battery technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-68	USPTO patents granted in hydrogen production and storage technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-69	USPTO patents granted in cleaner coal technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-70	USPTO patents granted in capture and storage of carbon and other greenhouse gases technologies, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-71	USPTO patents granted in air pollution control technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-72	USPTO patents granted in solid waste control technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-73	USPTO patents granted in water pollution control technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX
6-74	USPTO patents granted in recycling technology, by region, country, or economy: 1998–2016	View Table	Download PDF	Download XLSX

Chapter 7. Science and Technology: Public Attitudes and Understanding

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TABLE	TITLE	VIEW	PDF	EXCEL
7-1	Public interest in selected issues: 1979–2016	View Table	Download PDF	Download XLSX
7-2	Public interest in selected issues, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-3	Primary source of information about current news events, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-4	Primary source of information about science and technology, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-5	Primary source respondents used to learn about specific scientific issues, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-6	Public interest in selected issues: 1981–2016	View Table	Download PDF	Download XLSX
7-7	Visitors to informal science institutions: 2016	View Table	Download PDF	Download XLSX
7-8	Correct answers to trend factual knowledge of science questions, by respondent characteristic: 1992–2016	View Table	Download PDF	Download XLSX
7-9	Correct answers to factual knowledge questions in physical and biological sciences: 1985–2016	View Table	Download PDF	Download XLSX
7-10	Correct answers to factual knowledge questions in physical and biological sciences, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-11	Correct answers to scientific process questions, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-12	Public assessment of astrology, by respondent characteristic: 1979–2016	View Table	Download PDF	Download XLSX
7-13	Understanding of the term "scientific study," by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-14	Understanding of the term "scientific study": 1979–2016	View Table	Download PDF	Download XLSX
7-15	Public assessment of benefits and harms of scientific research, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-16	Public assessment of benefits and harms of scientific research: 1979–2016	View Table	Download PDF	Download XLSX
7-17	Public assessment of whether science and technology result in more opportunities for the next generation, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-18	Public assessment of whether science and technology result in more opportunities for the next generation: 1985–2016	View Table	Download PDF	Download XLSX
7-19	Public assessment of whether science makes life change too fast, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-20	Public assessment of whether science makes life change too fast: 1979–2016	View Table	Download PDF	Download XLSX
7-21	Public opinion on whether the federal government should fund basic scientific research, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-22	Public opinion on whether the federal government should fund basic scientific research: 1985–2016	View Table	Download PDF	Download XLSX
7-23	Public assessment of spending, by policy area: 1983–2016	View Table	Download PDF	Download XLSX
7-24	Public assessment of spending on science, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-25	Public assessment of spending on health, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-26	Public assessment of spending on the environment, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-27	Public assessment of spending on space, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-28	Public confidence in institutional leaders, by type of institution: 1973–2016	View Table	Download PDF	Download XLSX
7-29	Public confidence in science leaders, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-30	Public perception of scientists: 1983, 1985, 2001, 2012, 2016	View Table	Download PDF	Download XLSX
7-31	Public perception of scientists, by respondent characteristic: 2016	View Table	Download PDF	Download XLSX
7-32	Public assessment of the danger of river, lake, and stream pollution to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	View Table	Download PDF	Download XLSX
7-33	Public assessment of the danger of air pollution from industry to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	View Table	Download PDF	Download XLSX
7-34	Public assessment of the danger of climate change to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	View Table	Download PDF	Download XLSX
7-35	Public assessment of the danger of nuclear power stations to the environment, by respondent characteristic: 1993, 1994, 2010, 2016	View Table	Download PDF	Download XLSX
7-36	Public assessment of the danger of modifying genes of crops to the environment, by respondent characteristic: 2000, 2010, 2016	View Table	Download PDF	Download XLSX
7-37	Public assessment of the benefits and harms of nanotechnology, by respondent characteristic: 2006, 2008, 2010, 2016	View Table	Download PDF	Download XLSX

Chapter 8. Invention, Knowledge Transfer, and Innovation

Download Chapter 8 Appendix Tables: PDF | PDF (.zip) | Excel (.zip)

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TABLE	TITLE	VIEW	PDF	EXCEL
8-1	USPTO patents granted, by sector: 2002–16	View Table	Download PDF	Download XLSX
8-2	U.S. university patent awards, by technology area: 1996–2016	View Table	Download PDF	Download XLSX
8-3	Regions, countries, or economies in USPTO patent data	View Table	Download PDF	Download XLSX
8-4	USPTO patents granted, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-5	USPTO patents granted in computer technology, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-6	USPTO patents granted in semiconductors, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-7	USPTO patents granted in telecommunications, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-8	USPTO patents granted in digital communication, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-9	USPTO patents granted in basic communication processes, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-10	USPTO patents granted in IT methods for management, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-11	USPTO patents granted in medical technology, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-12	USPTO patents granted in biotechnology, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-13	USPTO patents granted in pharmaceuticals, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-14	USPTO patents granted in basic material chemistry, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-15	USPTO patents granted in organic chemistry, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-16	USPTO patents granted in macromolecular chemistry, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-17	USPTO patents granted in chemical engineering, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-18	USPTO patents granted in measurement, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-19	USPTO patents granted in optics, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-20	USPTO patents granted in analysis of biological materials, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-21	USPTO patents granted in control, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-22	USPTO patents granted in materials and metallurgy, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-23	USPTO patents granted in microstructural and nanotechnology, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-24	USPTO patents granted in surface technology and coating, by region, country, or economy: 2000–16	View Table	Download PDF	Download XLSX
8-25	Patent activity indexes for selected technologies for selected economies: 2014–16	View Table	Download PDF	Download XLSX
8-26	Academic patenting and licensing activities: 2001–15	View Table	Download PDF	Download XLSX
8-27	Federal technology transfer activity indicators for U.S. agencies with federal laboratories: FYs 2001–14	View Table	Download PDF	Download XLSX
8-28	Citation of S&E articles in USPTO patents, by cited field and cited country and sector: 2013–16	View Table	Download PDF	Download XLSX
8-29	Exports and imports of charges for the use of intellectual property, by selected region, country, or economy: 2008–16	View Table	Download PDF	Download XLSX
8-30	Global venture capital investment, by financing stage and selected region, country, or economy: 2006–16	View Table	Download PDF	Download XLSX
8-31	Definitions of industry or technologies of venture capital data	View Table	Download PDF	Download XLSX
8-32	U.S. seed-stage venture capital investment, by industry: 2011–16	View Table	Download PDF	Download XLSX
8-33	U.S. early and later-stage venture capital investment, by industry: 2011–16	View Table	Download PDF	Download XLSX
8-34	China early and later-stage venture capital investment, by industry: 2011–16	View Table	Download PDF	Download XLSX
8-35	SBIR and STTR awards, by type of award: FYs 1983–2015	View Table	Download PDF	Download XLSX
8-36	SBIR award funding, by type of award and federal agency: FYs 1983–2015	View Table	Download PDF	Download XLSX
8-37	STTR award funding, by type of award and federal agency: FYs 1995–2015	View Table	Download PDF	Download XLSX
8-38	Federal policies and programs supporting early stage technology development and innovation	View Table	Download PDF	Download XLSX

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Chapter 1. Elementary and Secondary Mathematics and Science Education

Graphic	Title	Provider	Product	Source
Figure 1-1	Average NAEP mathematics scores of students in grades 4 and 8: 1990-2015	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	NAEP mathematics scores for students in grades 4 and 8
App. Table 1-1	Average scores of students in grades 4, 8, and 12 on the main NAEP mathematics assessment, by student characteristics: 1990–2015	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP mathematics assessment, by student characteristics
				Average scores of students in grade 8 on the main NAEP mathematics assessment, by student characteristics
				Average scores of students in grade 12 on the main NAEP mathematics assessment, by student characteristics
Figure 1-2	Average mathematics assessment test scores of children who were in kindergarten for the first time during the 2010–11 school year and in the third grade during the 2013–14 school year, by family income level	U.S. Department of Education, National Center for Education Statistics	Early Childhood Longitudinal Study	Findings From the First-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
				Findings From the Second-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
				Findings From the Third-Grade Round of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
				First-Time Kindergartners in 2010–11: First Findings From the Kindergarten Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
Table 1-2	Average scores of students in grades 4, 8, and 12 on the main NAEP mathematics assessment, by socioeconomic status and sex within race or ethnicity: 2015	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP mathematics assessment, by student characteristics
				Average scores of students in grade 8 on the main NAEP mathematics assessment, by student characteristics
				Average scores of students in grade 12 on the main NAEP mathematics assessment, by student characteristics
App. Table 1-2	Students in grades 4, 8, and 12 scoring at or above main NAEP's proficient level in mathematics for their grade, by student grade and characteristics: 1990-2015	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Students in grade 4 scoring at or above main NAEP's proficient level in mathematics, by student characteristics
				Students in grade 8 scoring at or above main NAEP's proficient level in mathematics, by student characteristics
				Students in grade 12 scoring at or above main NAEP's proficient level in mathematics, by student characteristics
Figure 1-3	Average TIMSS mathematics scores of U.S. students in grades 4 and 8: 1995–2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
Table 1-3	Average scores of students in grades 4, 8, and 12 on the main NAEP science assessment, by socioeconomic status and sex within race or ethnicity: 2015	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP science assessment, by student characteristics
				Average scores of students in grade 8 on the main NAEP science assessment, by student characteristics
				Average scores of students in grade 12 on the main NAEP science assessment, by student characteristics
App. Table 1-3	Average scores of students in grades 4, 8, and 12 on the main NAEP science assessment, by student grade and characteristics: 2009–15	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP science assessment, by student characteristics
				Average scores of students in grade 8 on the main NAEP science assessment, by student characteristics
				Average scores of students in grade 12 on the main NAEP science assessment, by student characteristics
Figure 1-4	Average TIMSS science scores of U.S. students in grades 4 and 8: 1995–2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
Table 1-4	Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment, by socioeconomic status and sex within race or ethnicity: 2014	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment, by student characteristics
App. Table 1-4	Students in grades 4, 8, and 12 scoring at or above the main NAEP's proficient level in science for their grade, by student grade and characteristics: 2009–15	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Students in grade 4 scoring at or above main NAEP's proficient level in science, by student characteristics
				Students in grade 8 scoring at or above main NAEP's proficient level in science, by student characteristics
				Students in grade 12 scoring at or above main NAEP's proficient level in science, by student characteristics
Figure 1-5	Average mathematics and science literacy assessment scores of 15-year-old students in the United States: 2003–15	U.S. Department of Education, National Center for Education Statistics	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
Table 1-5	Average mathematics and science assessment test scores of children who were in kindergarten for the first time during the 2010–11 school year and in the third grade during the 2013–14 school year, by child and family characteristics	U.S. Department of Education, National Center for Education Statistics	Early Childhood Longitudinal Study	Findings From the First-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
				Findings From the Third-Grade Round of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
				First-Time Kindergartners in 2010–11: First Findings From the Kindergarten Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
App. Table 1-5	Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment and the percentage scoring proficient or above, by student characteristics: 2014	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment, by student characteristics
App. Table 1-5			National Assessment of Educational Progress (NAEP)	Students in grade 8 scoring at or above main NAEP's proficient level in technology and engineering, by student characteristics
Figure 1-6	Percentage distribution of high school students taking an AP exam in mathematics or science, by sex: 2016	The College Board	AP Data	Distribution of high school students taking an AP exam in mathematics or science, by sex
Table 1-6	Average TIMSS mathematics scores of U.S. students in grades 4 and 8, by selected student and school characteristics: 2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-6	Average scores of students in grade 4 on the main NAEP mathematics assessment, by race or ethnicity and sex, by state: 2000-15	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP mathematics assessment, by race or ethnicity and sex, by state
Figure 1-7	Salaries of teachers in developed countries relative to earnings for tertiary educated workers: 2014	Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	Developed country teachers' salaries relative to earnings for tertiary educated workers
Table 1-7	Average TIMSS mathematics scores of students in grades 4 and 8, by education system: 2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-7	Students in grade 4 scoring at or above main NAEP's proficient level in mathematics, by race or ethnicity and sex, by state: 2000–15	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Students in grade 4 scoring at or above main NAEP's proficient level in mathematics, by race or ethnicity and sex, by state
Figure 1-8	Immediate college enrollment rates among high school graduates, by institution type: 1975–2015	U.S. Department of Education, National Center for Education Statistics	Digest of Education Statistics	Percentage of recent high school completers enrolled in 2- and 4-year colleges, by race/ethnicity: 1960 through 2015
				Percentage of recent high school completers enrolled in 2-year and 4-year colleges, by income level: 1975 through 2015
				Recent high school completers and their enrollment in 2-year and 4-year colleges, by sex: 1960 through 2015
Table 1-8	Average TIMSS science scores of U.S. students in grades 4 and 8, by selected student and school characteristics: 2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-8	Average scores of students in grade 4 on the main NAEP science assessment, by race or ethnicity and sex, by state: 2009 and 2015	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP science assessment, by race or ethnicity and sex, by state
Table 1-9	Average TIMSS science scores of students in grades 4 and 8, by education system: 2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-9	Students in grade 4 scoring at or above the main NAEP's proficient level in science, by race or ethnicity and sex, by state: 2009 and 2015	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Students in grade 4 scoring at or above main NAEP's proficient level in science, by race or ethnicity and sex, by state
Table 1-10	Average advanced mathematics and physics scores of U.S. TIMSS Advanced students, by selected student and school characteristics: 2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-10	Average scores of students in grade 8 on the main NAEP mathematics assessment, by race or ethnicity and sex, by state: 2000-15	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 8 on the main NAEP mathematics assessment, by race or ethnicity and sex, by state
Table 1-11	Average scores of U.S. 15-year-old students on the PISA mathematics and science literacy scales, by selected student characteristics: 2015	U.S. Department of Education, National Center for Education Statistics	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
App. Table 1-11	Students in grade 8 scoring at or above the main NAEP's proficient level in mathematics, by race or ethnicity and sex, by state: 2000–15	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Students in grade 8 scoring at or above main NAEP's proficient level in mathematics, by race or ethnicity and sex, by state
Table 1-12	Average mathematics literacy assessment scores for 15-year-olds participating in PISA, by education system: 2015	U.S. Department of Education, National Center for Education Statistics	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
App. Table 1-12	Average scores of students in grade 8 on the main NAEP science assessment, by race or ethnicity and sex, by state: 2009-15	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 8 on the main NAEP science assessment, by race or ethnicity and sex, by state
Table 1-13	Average science literacy assessment scores for 15-year-old students participating in PISA, by education system: 2015	U.S. Department of Education, National Center for Education Statistics	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
App. Table 1-13	Students in grade 8 scoring at or above the main NAEP's proficient level in science, by race or ethnicity and sex, by state: 2009–2015	U.S. Department of Education, National Center for Education Statistics	National Assessment of Educational Progress (NAEP)	Students in grade 8 scoring at or above main NAEP's proficient level in science, by race or ethnicity and sex, by state
Table 1-14	Highest-level mathematics course enrollment of high school completers, by student and family characteristics: 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
App. Table 1-14	Average mathematics assessment test scores of children who were in kindergarten for the first time in the 2010–11 school year and in third grade in the 2013–14 school year, by child and family characteristics	U.S. Department of Education, National Center for Education Statistics	Early Childhood Longitudinal Study	Findings From the First-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
				Findings From the Second-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
				Findings From the Third-Grade Round of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
				First-Time Kindergartners in 2010–11: First Findings From the Kindergarten Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
Table 1-15	Highest-level mathematics course enrollment of high school completers, by socioeconomic status within race or ethnicity, 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
App. Table 1-15	Average science assessment test scores of children who were in kindergarten for the first time in the 2010–11 school year and in third grade in the 2013–14 school year, by child and family characteristics	U.S. Department of Education, National Center for Education Statistics	Early Childhood Longitudinal Study	Findings From the First-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
				Findings From the Second-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
				Findings From the Third-Grade Round of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
Table 1-16	Science course enrollment of high school completers, by student and family characteristics: 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
App. Table 1-16	Average TIMSS mathematics scores of students in grade 4, by education system: 2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
Table 1-17	Science course enrollment of high school completers, by socioeconomic status within race or ethnicity, 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
App. Table 1-17	Average TIMSS mathematics scores of students in grade 8, by education system: 2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
Table 1-18	Average high school credits earned in technology-related courses and percentage of students earning any credit, for fall 2009 ninth graders, by sex: 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 2013 Update and High School Transcript Study: A First Look at Fall 2009 Ninth-Graders in 2013
App. Table 1-18	Average TIMSS science scores of students in grade 4, by education system: 2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
Table 1-19	Percentage of principals reporting that their schools offer at least one computer science course, by grade level, size, and locale: 2016	Google	Trends in the State of Computer Science in U.S. K-12 Schools	Percentage of principals reporting that their schools offer at least one computer science course, by grade level, size, and urbanicity
App. Table 1-19	Average TIMSS science scores of students in grade 8, by education system: 2015	U.S. Department of Education, National Center for Education Statistics	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
Table 1-20	Students who took or passed an AP exam in high school, by subject: 2016	The College Board	AP Data	Students who took or passed an AP exam in high school, by subject
App. Table 1-20	Average mathematics literacy assessment scores for 15-year-old students participating in PISA, by education system: 2015	U.S. Department of Education, National Center for Education Statistics	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
Table 1-21	Students taking AP exams, by subject: 2006 and 2016	The College Board	AP Data	Students taking AP exams, by subject
App. Table 1-21	Average science literacy assessment scores for 15-year-old students participating in PISA, by education system: 2015	U.S. Department of Education, National Center for Education Statistics	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
Table 1-22	Access to high-level mathematics and sciences courses among students at low versus high black and Latino enrollment schools: 2013-14	U.S. Department of Education, Office for Civil Rights	Department of Education Civil Rights Data Collection	2013–2014 Civil Rights Data Collection: A first look
App. Table 1-22	Highest-level mathematics course enrollment of high school completers, by gender and socioeconomic status within race or ethnicity: 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
Table 1-23	On-time graduation rates of U.S. public high school students, by student characteristics: 2011−15	U.S. Department of Education, National Center for Education Statistics	Common Core Data Table Library	On-time graduation rates for U.S. public high school students (2013-14)
				On-time graduation rates for U.S. public high school students (2014-15)
				Trends in High School Dropout and Completion Rates in the United States: 2013
App. Table 1-23	Highest-level mathematics course enrollment of high school completers, by student and family characteristics: 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
Table 1-24	High school graduation rates, by OECD country: 2014	Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	High school graduation rates, by OECD country
App. Table 1-24	Science course enrollment of high school completers, by sex and socioeconomic status within race or ethnicity: 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
Table 1-25	Relative standing of U.S. high school graduation rates among OECD countries: 2008, 2010, 2012, and 2014	Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	High school graduation rates among OECD countries (2008)
				High school graduation rates among OECD countries (2010)
				High school graduation rates among OECD countries (2012)
				High school graduation rates among OECD countries (2014)
App. Table 1-25	Science course enrollment of high school completers, by student and family characteristics: 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
Table 1-26	Chapter summary of U.S. performance on K–12 STEM indicators	American College Testing (ACT)	The Condition of College and Career Readiness	The Condition of College and Career Readiness 2016
		U.S. Department of Education, National Center for Education Statistics	Common Core Data Table Library	On-time graduation rates for U.S. public high school students (2014-15)
			Digest of Education Statistics	Percentage of recent high school completers enrolled in 2- and 4-year colleges, by race/ethnicity: 1960 through 2015
				Percentage of recent high school completers enrolled in 2-year and 4-year colleges, by income level: 1975 through 2015
				Recent high school completers and their enrollment in 2-year and 4-year colleges, by sex: 1960 through 2015
			Early Childhood Longitudinal Study	Findings From the Third-Grade Round of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
			National Assessment of Educational Progress (NAEP)	Average scores of students in grade 12 on the main NAEP science assessment, by student characteristics
				Average scores of students in grade 4 on the main NAEP mathematics assessment, by student characteristics
				Average scores of students in grade 8 on the main NAEP mathematics assessment, by student characteristics
				Average scores of students in grade 12 on the main NAEP mathematics assessment, by student characteristics
				Average scores of students in grade 4 on the main NAEP science assessment, by student characteristics
				Average scores of students in grade 8 on the main NAEP science assessment, by student characteristics
				Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment, by student characteristics
			Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
			Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-26	Average high school credits earned in technology-related courses, and percentage earning any credit, for fall 2009 ninth graders, by student, family, and school characteristics: 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 2013 Update and High School Transcript Study: A First Look at Fall 2009 Ninth-Graders in 2013
Table 1-27	Summary of long- and short-term trends in U.S. performance on K–12 STEM indicators	U.S. Department of Education, National Center for Education Statistics	Common Core Data Table Library	Trend in on-time high school graduation rate
			Digest of Education Statistics	Trend in immediate college enrollment
			National Assessment of Educational Progress (NAEP)	Trend in NAEP Mathematics scores
			National Assessment of Educational Progress (NAEP)	Trend in NAEP Science scores
			Program for International Student Assessment (PISA)	Trend in PISA Mathematics scores
			Program for International Student Assessment (PISA)	Trend in PISA Science scores
			Trends in International Mathematics and Science Study (TIMSS)	Trend in TIMSS Mathematics scores
				Trend in TIMSS Science scores
App. Table 1-27	High school graduates enrolled in college in October after completing high school, by demographic characteristics and institution type: 1975–2015	U.S. Census Bureau	Current Population Survey	Parents' education: National Center for Education Statistics (NCES) special tabulations (2017) of Current Population Survey
		U.S. Department of Education, National Center for Education Statistics	Digest of Education Statistics	Percentage of recent high school completers enrolled in 2- and 4-year colleges, by race/ethnicity: 1960 through 2015
				Percentage of recent high school completers enrolled in 2-year and 4-year colleges, by income level: 1975 through 2015
				Recent high school completers and their enrollment in 2-year and 4-year colleges, by sex: 1960 through 2015
App. Table 1-28	Fall 2009 ninth graders considering a STEM major (among those with an identified major), by program level and student, family, and school characteristics: 2013	U.S. Department of Education, National Center for Education Statistics	High School Longitudinal Study	High School Longitudinal Study of 2009 2013 Update and High School Transcript Study: A First Look at Fall 2009 Ninth-Graders in 2013
Figure 1-A	ACT-tested 2016 high school graduates meeting ACT college readiness benchmarks in mathematics and science	American College Testing (ACT)	The Condition of College and Career Readiness	The Condition of College and Career Readiness 2016

Chapter 2. Higher Education in Science and Engineering

Graphic	Title	Provider	Product	Source
Figure 2-1	Selected average revenues and expenditures per FTE at public very high research universities: 2000–15	U.S. Department of Education, National Center for Education Statistics	IPEDS Analytics: Delta Cost Project Database	Selected average revenues and expenditures per FTE at public very high research universities
Table 2-1	Degree-granting institutions, by control and level of institution: 2015–16	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System: Institutional Characteristics component	Degree-granting institutions, by control and level of institution
App. Table 2-1	S&E degrees awarded, by degree level, Carnegie institution type, and field: 2015	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	S&E degrees awarded, by degree level, Carnegie institution type, and field
Figure 2-2	Average expenditures per FTE on research at public and private very high research universities: 2000–15	U.S. Department of Education, National Center for Education Statistics	IPEDS Analytics: Delta Cost Project Database	Average expenditures on research at private and public very high research universities
Table 2-2	Degree awards, by degree level and institutional control: 2015	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Degree awards by degree level and institutional control
App. Table 2-2	Degrees awarded by private for-profit academic institutions, by broad field and degree level: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Degrees awarded by for-profit institutions 2000-2015
Figure 2-3	Average expenditures per FTE on instruction at public and private very high research universities: 2000–15	U.S. Department of Education, National Center for Education Statistics	IPEDS Analytics: Delta Cost Project Database	Average expenditures per FTE on instruction at public and private very high research universities
Table 2-3	Distribution of U.S. citizen and permanent resident S&E doctorate recipients whose baccalaureate origin is a high-Hispanic-enrollment institution, by ethnicity and race: 2011–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	U.S. citizen and permanent resident S&E doctorate recipients with baccalaureates from high-Hispanic-enrollment institutions
App. Table 2-3	Degrees awarded by private for-profit academic institutions, by field and degree level: 2015	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Degrees awarded by for-profit institutions, by field and degree level: 2015
Figure 2-4	Selected average revenues and expenditures at public 4-year and other postsecondary institutions: 2000–15	U.S. Department of Education, National Center for Education Statistics	IPEDS Analytics: Delta Cost Project Database	Selected average revenues and expenditures at public 4-year and other postsecondary institutions
Table 2-4	U.S. citizen and permanent resident S&E doctorate recipients whose baccalaureate origin is an HBCU, by ethnicity and race: 2011–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	U.S. citizen and permanent resident S&E doctorate recipients with baccalaureates from an HBCU, by ethnicity and race
App. Table 2-4	Distance education programs by institutional control, field, and degree level: 2015	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Distance education programs by institutional control, field, and degree level
Figure 2-5	Selected average revenues and expenditures per FTE at community colleges: 2000–15	U.S. Department of Education, National Center for Education Statistics	IPEDS Analytics: Delta Cost Project Database	Selected average revenues and expenditures per FTE at community colleges
Table 2-5	U.S. citizen and permanent resident S&E doctorate recipients who reported earning college credit from a community or 2-year college, by ethnicity and race: 2011–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	U.S. citizen and permanent resident S&E doctorate recipients reporting earning college credit from a community or 2-year college, by ethnicity and race
App. Table 2-5	Undergraduate and total enrollment in higher education, by Carnegie institution type: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Fall Enrollment Survey	Undergraduate and total enrollment in higher education, by Carnegie institution type
Figure 2-6	Full-time S&E graduate students, by source of primary support: 2000–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduate students, by source of primary support
Table 2-6	Recent recipients of S&E degrees who attended community college, by sex, race and ethnicity, citizenship status, and parents' education level: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Recent recipients of S&E degrees who attended community college, by sex, race and ethnicity, citizenship status, and parents' education level
App. Table 2-6	Average revenue per FTE, by institution type: 2000-2015	U.S. Department of Education, National Center for Education Statistics	IPEDS Analytics: Delta Cost Project Database	Average revenue per full-time equivalent student, by institution type
Figure 2-7	Full-time S&E graduate students with primary support from federal government, by field: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates supported by the federal government, by field
Table 2-7	Enrollment in Title IV institutions, by distance education enrollment status, control, and level of institution: Fall 2015	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Fall Enrollment Survey	Enrollment in Title IV institutions, by distance education enrollment status, control, and level of institution
App. Table 2-7	Average expenditures per FTE, by institution type: 2000-15	U.S. Department of Education, National Center for Education Statistics	IPEDS Analytics: Delta Cost Project Database	Average expenditures per full-time equivalent student, by institution
Figure 2-8	Full-time S&E graduate students, by field and mechanism of primary support: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduate students, by field and mechanism of primary support
Table 2-8	Net tuition and fees for full-time undergraduate students by institutional control: 2006–07 and 2011–12 through 2016–17	The College Board	Annual Survey of Colleges: Trends in College Pricing	Net tuition and fees for full-time undergraduate students by institutional control
App. Table 2-8	Full-time S&E graduate students, by source and mechanism of primary support: 2000–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates by source and mechanism of primary support
Figure 2-9	Share of full-time undergraduate enrollment among U.S. citizens and permanent residents, by race and ethnicity: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Fall Enrollment Survey	Undergraduate enrollment in higher education, by race and ethnicity
Table 2-9	Primary support mechanisms for S&E doctorate recipients, by 2010 Carnegie classification of doctorate-granting institution: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Doctorate recipients' primary source of support
App. Table 2-9	Full-time S&E graduate students, by field and mechanism of primary support: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates, by field and mechanism of primary support
Figure 2-10	S&E bachelor's degrees, by field 2000-15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	S&E bachelor's degrees, by field
Table 2-10	International students enrolled in U.S. higher education institutions, by broad field and academic level: 2012–17	U.S. Department of Homeland Security	Student and Exchange Visitor Information System database	International students' enrollment in U.S. universities
App. Table 2-10	Full-time S&E graduate students primarily supported by federal government, by field: 2000–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates supported by the federal government, by field
Figure 2-11	Women's share of S&E bachelor's degrees, by field: 2000-15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	S&E bachelor's degrees, by field and sex
Table 2-11	Retention and attainment of postsecondary students at the first academic institution attended through June 2014, by level of first institution and major field category: 2013–14	U.S. Department of Education, National Center for Education Statistics	Beginning Postsecondary Students Longitudinal Study	Retention and attainment of postsecondary students at the first academic institution, by level of first institution and major field category
App. Table 2-11	Proportion of full-time S&E graduate students primarily supported by federal government, by field and mechanism of primary support: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduate students, by field and mechanism of primary support
Figure 2-12	Share of S&E bachelor’s degrees among U.S. citizens and permanent residents, by race and ethnicity: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Earned bachelor's degrees by citizenship, field, and race or ethnicity
Table 2-12	Major switching among first-time postsecondary students beginning 4-year colleges and universities in 2011–12: 2013–14	U.S. Department of Education, National Center for Education Statistics	Beginning Postsecondary Students Longitudinal Study	Major switching among first-time postsecondary students beginning 4-year colleges and universities
App. Table 2-12	Full-time S&E graduate students primarily supported by federal government, by agency: 2000–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates supported by the federal government, by agency
Figure 2-13	S&E master’s degrees, by field: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	S&E master's degrees, by field
Table 2-13	Median number of years from entering graduate school to receipt of S&E doctorate, by 2010 Carnegie classification of doctorate-granting institution: 2000–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by field
App. Table 2-13	Full-time S&E graduate students primarily supported by federal government, by field and agency: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates supported by the federal government, by agency
App. Table 2-13				Full time S&E graduates supported by the federal government, by field
Figure 2-14	S&E master's degrees, by sex of recipient: 2000-15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	S&E master's degrees, by sex
Table 2-14	Recipients of U.S. S&E doctorates on temporary visas, by country or economy of origin: 1995–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	U.S. S&E doctorate recipients on temporary visas
App. Table 2-14	Doctorate recipients' source of primary support, by broad field of study, sex, citizenship, ethnicity, and race: 2013–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Doctorate recipients' primary source of support
Figure 2-15	S&E master’s degrees, by race, ethnicity, and citizenship: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	S&E master's degrees, by race, ethnicity, and citizenship
Table 2-15	Asian recipients of U.S. S&E doctorates on temporary visas, by field and country or economy of origin: 1995–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Asian recipients of U.S. S&E doctorates
App. Table 2-15	Amount of undergraduate and graduate debt of S&E doctorate recipients, by field: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	S&E doctorate recipients undergraduate and graduate debt
Figure 2-16	S&E doctoral degrees earned in U.S. universities, by field: 2000-15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Earned S&E doctoral degrees, by field
Table 2-16	European recipients of U.S. S&E doctorates on temporary visas, by field and region or country of origin: 1995–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	European recipients of U.S. S&E doctorates on temporary visas
App. Table 2-16	International undergraduate student enrollment in U.S. universities, by field and selected places of origin: Fall 2016 and fall 2017	U.S. Department of Homeland Security	Student and Exchange Visitor Information System database	International undergraduate student enrollment in U.S. universities
Figure 2-17	S&E doctoral degrees earned by U.S. citizen and permanent resident underrepresented minorities, by race and ethnicity: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	S&E doctoral degrees earned by U.S. citizen and permanent resident underrepresented minorities, by race and ethnicity
Table 2-17	North American, South American, and Middle Eastern recipients of U.S. S&E doctorates on temporary visas, by field and region and country of origin: 1995–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	North American, South American, and Middle Eastern recipients of U.S. S&E doctorates
App. Table 2-17	Undergraduate enrollment in engineering and engineering technology programs: 2006–15	American Society for Engineering Education	Engineering by the Numbers	Undergraduate enrollment in engineering
Figure 2-18	S&E doctoral degrees, by race, ethnicity, and citizenship: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	S&E doctoral degrees, by race, ethnicity, and citizenship
App. Table 2-18	Earned associate’s degrees, by sex and field: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Earned associate's degrees by sex and field
Figure 2-19	U.S. S&E doctoral degree recipients, by selected Asian country or economy of origin: 1995–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Asian recipients of U.S. S&E doctorates
App. Table 2-19	Earned associate’s degrees, by citizenship, field, race, and ethnicity: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Earned associate's degrees by citizenship, field, and race or ethnicity
Figure 2-20	U.S. S&E doctoral degree recipients, by selected European country: 1995–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	U.S. S&E doctorate recipients by selected European country
App. Table 2-20	Degrees awarded to U.S. citizens and permanent residents, by sex, race, ethnicity, broad field category, and degree level: 2000 and 2015	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Degrees awarded to U.S. citizens and permanent residents, by sex, race, ethnicity, broad field category, and degree level
Figure 2-21	U.S. S&E doctoral degree recipients from Europe, by region: 1995–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	U.S. S&E doctorate recipients from Europe
App. Table 2-21	Earned bachelor’s degrees, by sex and field: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Earned bachelor's degrees, by sex and field
Figure 2-22	U.S. S&E doctoral degree recipients from Canada, Mexico, and Brazil: 1995–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	U.S. S&E doctoral degree recipients from Canada, Mexico, and Brazil
App. Table 2-22	Earned bachelor’s degrees, by citizenship, field, race, and ethnicity: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Earned bachelor's degrees by citizenship, field, and race or ethnicity
Figure 2-23	Attainment of bachelor's or higher degrees, by country and age group: 2015	Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	Educational attainment by country and age group (OECD 2016)
App. Table 2-23	S&E graduate enrollment, by field: 2000–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	S&E graduate enrollment, by field
Figure 2-24	First university natural sciences and engineering degrees, by selected country or economy: 2000–14	Ministry of Education (Taiwan)	Educational Statistics of the Republic of China	First university degrees - Taiwan (various years)
		Ministry of Education, Culture, Sports, Science and Technology (Japan)	Survey of Education (Japan)	First university degrees - Japan (various years)
		National Bureau of Statistics of China	China Statistical Yearbook	First university degrees - China (various years)
		Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	First university degrees - OECD
		U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	First university degrees - United States
		UNESCO Institute for Statistics	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	First university degrees - UNESCO
App. Table 2-24	First-time full-time S&E graduate students, by citizenship and field: 2000–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	First-time full-time S&E graduate students, by citizenship and field
Figure 2-25	Natural sciences and engineering doctoral degrees, by selected country: 2000–14	India Department of Higher Education	All India Survey on Higher Education	Doctoral degrees - India (various years)
		Ministry of Education, Culture, Sports, Science and Technology (Japan)	Survey of Education (Japan)	Doctoral degrees - Japan (various years)
		National Bureau of Statistics of China	China Statistical Yearbook	Doctoral degrees - China (various years)
		U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Doctoral degrees - United States
		UNESCO Institute for Statistics	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	Doctoral degrees - UNESCO
App. Table 2-25	S&E graduate enrollment, by citizenship and field: 2000–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Graduate Students and Postdoctorates in Science and Engineering	S&E graduate enrollment by citizenship and field
Figure 2-26	Internationally mobile students enrolled in tertiary education, by selected country: 2014	UNESCO Institute for Statistics	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	Internationally mobile students enrolled in tertiary education
App. Table 2-26	International graduate student enrollment in U.S. universities, by field and selected places of origin: Fall 2016 and fall 2017	U.S. Department of Homeland Security	Student and Exchange Visitor Information System database	International graduate student enrollment in U.S. universities
App. Table 2-27	Earned master’s degrees, by sex and field: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Earned Master's degrees, by sex and field
App. Table 2-28	Earned master’s degrees, by citizenship, field, race, and ethnicity: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Earned master's degrees by citizenship, field, and race or ethnicity
App. Table 2-29	Earned doctoral degrees, by citizenship, field, and sex: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Earned doctoral degrees, by citizenship, field, and sex
App. Table 2-30	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by field: 1985–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by field
App. Table 2-31	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by sex, citizenship, ethnicity, race, and broad field of study: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by sex, citizenship, race, ethnicity, and broad field of study
App. Table 2-32	Earned doctoral degrees, by citizenship, field, race, and ethnicity: 2000–15	U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Earned doctoral degrees by citizenship, field, and race or ethnicity
App. Table 2-33	Expenditures on tertiary education institutions as a percentage of GDP: 2005, 2008, and 2010–13	Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	Country expenditures on tertiary education
App. Table 2-34	First university degrees, by selected region, country, or economy: 2014 or most recent year	India Department of Higher Education	All India Survey on Higher Education	First university degrees - India (AISHE 2015)
		Ministry of Education (Singapore)	Education Statistics Digest (Singapore)	First university degrees - Singapore (Education Statistics Digest 2015)
		Ministry of Education (Taiwan)	Educational Statistics of the Republic of China	First university degrees - Taiwan (Educational Statistics of the Republic of China 2015)
		Ministry of Education, Culture, Sports, Science and Technology (Japan)	Survey of Education (Japan)	First university degrees - Japan (Survey of Education 2016)
		National Bureau of Statistics of China	China Statistical Yearbook	First university degrees - China (China Statistical Yearbook 2015)
		Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	First university degrees - OECD
		U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	First university degrees - United States
		UNESCO Institute for Statistics	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	First university degrees - UNESCO
App. Table 2-35	S&E first university degrees, by selected Western or Asian country or economy and field: 2000–14	Ministry of Education (Taiwan)	Educational Statistics of the Republic of China	First university degrees - Taiwan (various years)
		Ministry of Education, Culture, Sports, Science and Technology (Japan)	Survey of Education (Japan)	First university degrees - Japan (various years)
		National Bureau of Statistics of China	China Statistical Yearbook	First university degrees - China (various years)
		Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	First university degrees - OECD
		U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	First university degrees - United States
		UNESCO Institute for Statistics	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	First university degrees - UNESCO
App. Table 2-36	First university degrees, by field, sex, and selected region, country, or economy: 2014 or most recent year	India Department of Higher Education	All India Survey on Higher Education	First university degrees - India (AISHE 2015)
		Ministry of Education (Singapore)	Education Statistics Digest (Singapore)	First university degrees - Singapore (Education Statistics Digest 2015)
		Ministry of Education (Taiwan)	Educational Statistics of the Republic of China	First university degrees - Taiwan (Educational Statistics of the Republic of China 2015)
		Ministry of Education, Culture, Sports, Science and Technology (Japan)	Survey of Education (Japan)	First university degrees - Japan (Survey of Education 2016)
		National Bureau of Statistics of China	China Statistical Yearbook	First university degrees - China (China Statistical Yearbook 2015)
		Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	First university degrees - OECD
		U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	First university degrees - United States
		UNESCO Institute for Statistics	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	First university degrees - UNESCO
App. Table 2-37	Earned doctoral degrees, by selected region, country, or economy and field: 2014 or most recent year	India Department of Higher Education	All India Survey on Higher Education	Doctoral degrees - India (AISHE 2015)
		Ministry of Education (Singapore)	Education Statistics Digest (Singapore)	Doctoral degrees - Singapore (Education Statistics Digest 2015)
		Ministry of Education (Taiwan)	Educational Statistics of the Republic of China	Doctoral degrees - Taiwan (Educational Statistics of the Republic of China 2015)
		Ministry of Education, Culture, Sports, Science and Technology (Japan)	Survey of Education (Japan)	Doctoral degrees - Japan (Survey of Education 2016)
		National Bureau of Statistics of China	China Statistical Yearbook	Doctoral degrees - China (China Statistical Yearbook 2015)
		Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	Doctoral degrees - OECD
		U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Doctoral degrees - United States
		UNESCO Institute for Statistics	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	Doctoral degrees - UNESCO
App. Table 2-38	S&E doctoral degrees in the United States and selected European countries or economies, by field: 2000–14	Organization for Economic Cooperation and Development	Education at a Glance: OECD Indicators	Doctoral degrees - OECD
App. Table 2-38		U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Doctoral degrees - United States
App. Table 2-39	S&E doctoral degrees, by selected Asian country or economy and field: 2000–14	Ministry of Education (Taiwan)	Educational Statistics of the Republic of China	Doctoral degrees - Taiwan (various years)
		Ministry of Education, Culture, Sports, Science and Technology (Japan)	Survey of Education (Japan)	Doctoral degrees - Japan (various years)
		National Bureau of Statistics of China	China Statistical Yearbook	Doctoral degrees - China (various years)
		UNESCO Institute for Statistics	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	Doctoral degrees - UNESCO
App. Table 2-40	Earned S&E doctoral degrees, by sex, selected region, country, or economy, and field: 2014 or most recent year	India Department of Higher Education	All India Survey on Higher Education	Doctoral degrees - India (AISHE 2015)
		Ministry of Education (Taiwan)	Educational Statistics of the Republic of China	Doctoral degrees - Taiwan (Educational Statistics of the Republic of China 2015)
		U.S. Department of Education, National Center for Education Statistics	Integrated Postsecondary Education Data System, Completions Survey	Doctoral degrees - United States
		UNESCO Institute for Statistics	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	Doctoral degrees - UNESCO
App. Table 2-41	Trends in population age 20–24, by selected country and region: 2015–60	U.N. Department of Economics and Social Affairs	World Population Prospects	Population projections through 2060 for selected countries and regions
App. Table 2-41		U.S. Census Bureau	National Population Projections	Population projections through 2060 by race and ethnicity - United States
App. Table 2-42	Foreign S&E student enrollment in United Kingdom universities, by enrollment level, place of origin, and field: Academic years 2005–06 and 2015–16	Higher Education Statistics Agency	Higher Education Statistics Agency Data	Foreign students enrollment in UK universities
App. Table 2-43	Foreign S&E student enrollment in Japanese universities, by enrollment level, place of origin, and field: 2004 and 2016	Ministry of Education, Culture, Sports, Science and Technology (Japan)	Survey of Education (Japan)	Graduate foreign student enrollment in Japanese universities
App. Table 2-43			Survey of Education (Japan)	Undergraduate foreign student enrollment in Japanese universities
App. Table 2-44	S&E student enrollment in Canadian universities, by enrollment level, place of origin, and S&E field: 2004 and 2014	Statistics Canada	Center for Education Statistics Data (Canada)	S&E student enrollment in Canadian universities

Chapter 3. Science and Engineering Labor Force

Graphic	Title	Provider	Product	Source
Figure 3-1	Employment in S&E occupations, by broad occupational category: 2015 and 2016	Bureau of Labor Statistics	Occupational Employment Statistics (OES) Survey	OES National occupational employment and wage estimates
Figure 3-1		National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employment in S&E occupations, by broad occupational category (NSCG)
Figure 3-2	S&E degrees among college graduates, by field and level of highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	S&E degrees among college graduates, by field and level of highest degree
Table 3-2	Classification of degree fields and occupation	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	S&E degrees among college graduates, by field and level of highest degree
App. Table 3-2	Bureau of Labor Statistics projections of occupational employment: 2014–24	Bureau of Labor Statistics	Employment Projections	Employment Projections program, special tabulations of 2014–24 Employment Projections.
Figure 3-3	Individuals employed in S&E occupations in the United States: Selected years, 1960–2015	U.S. Census Bureau	American Community Survey	2015 ACS 1-year PUMS
			Decennial Census	1960 Decennial Census PUMS - occupations
				1970 Decennial Census PUMS - occupations
				1980 Decennial Census PUMS - occupations
				1990 Decennial Census PUMS - occupations
				2000 Decennial Census PUMS - occupations
Table 3-3	Measures and size of U.S. S&E workforce: 2015 and 2016	Bureau of Labor Statistics	Occupational Employment Statistics (OES) Survey	OES National occupational employment and wage estimates
		National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employed in S&E occupations (NSCG)
				Employed workers with at least one degree in S&E field
				Job relatedness to highest degree for those with highest degree in S&E field, by occupation
				Job requires S&E technical expertise at bachelor's level
		U.S. Census Bureau	American Community Survey	2015 ACS 1-year PUMS
App. Table 3-3	Scientists and engineers, by occupation and degree field: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Scientists and engineers, by occupation and field of highest degree
Figure 3-4	Average annual growth in the total number of employed individuals with highest degree in S&E, by field and level of highest degree: 2003–15	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employed individuals with highest degree in S&E, by field and level of highest degree: 2015
Figure 3-4			SESTAT Integrated File	Employed individuals with highest degree in S&E, by field and level of highest degree: 2003
Table 3-4	Educational background of college graduates employed in S&E occupations, by broad S&E occupational category: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Educational background of college graduates employed in S&E occupations, by broad S&E occupational category
App. Table 3-4	Employment sector of S&E highest degree holders and workers in S&E occupations: 1993, 2003, and 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employment sector of S&E highest degree holders
App. Table 3-4			National Survey of College Graduates	Employment sector of workers in S&E occupations
Figure 3-5	Educational attainment, by type of occupation: 2015	U.S. Census Bureau	American Community Survey	2015 ACS 1-year PUMS
Table 3-5	Relationship of highest degree to job among S&E highest degree holders not in S&E occupations, by degree level: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Relationship of highest degree to job among S&E highest degree holders not in S&E occupations
App. Table 3-5	Employment sector of S&E highest degree holders, by level and field of highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employment sector of S&E highest degree holders, by level and field of highest degree
Figure 3-6	Occupational distribution of scientists and engineers, by broad field of highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Occupational distribution of scientists and engineers, by broad field of highest degree: 2015
Table 3-6	Employment sector of scientists and engineers, by broad occupational category and degree field: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employment sector of scientists and engineers, by broad occupational category and degree field
App. Table 3-6	Scientists and engineers participating in work-related training, by labor force status, highest degree level, and sex: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Scientists and engineers participating in work-related training, by labor force status, highest degree level, and sex
Figure 3-7	Occupational distribution of S&E highest degree holders, by field of highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Occupational distribution of S&E highest degree holders, by field of highest degree
Table 3-7	Self-employed scientists and engineers, by education, occupation, and type of business: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Self-employed scientists and engineers, by education, occupation, and type of business
App. Table 3-7	Most important reason for scientists and engineers to participate in work-related training, by labor force status: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Most important reason for scientists and engineers to participate in work-related training, by labor force status
Figure 3-8	S&E degree holders working in S&E occupations, by level and field of S&E highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Percent of S&E degree holders working in S&E occupations, by level and field of S&E highest degree
Table 3-8	Employment in S&E occupations, by major industry: May 2016	Bureau of Labor Statistics	Occupational Employment Statistics (OES) Survey	OES May 2016 National Industry-Specific Estimates
App. Table 3-8	Unemployment rates of scientists and engineers, by level of highest degree and broad occupational category: Selected years, 2003–15	National Science Foundation, National Center for Science and Engineering Statistics	SESTAT Integrated File	Unemployment rates of scientists and engineers, by level of highest degree and broad occupational category
Figure 3-9	S&E degree holders employed in jobs related to highest degree, by level of and years since highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	S&E degree holders employed in jobs related to highest degree, by level of and years since highest degree
Table 3-9	Metropolitan areas with largest proportion of workers in S&E occupations: May 2016	Bureau of Labor Statistics	Occupational Employment Statistics (OES) Survey	OES May 2016 Metropolitan Area Employment Estimates
App. Table 3-9	Median annual salaries for employed college-educated individuals, by broad field and level of highest degree and broad occupational category: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Median annual salaries for employed college-educated individuals, by broad field and level of highest degree and broad occupational category
Figure 3-10	S&E highest degree holders, by degree level and employment sector: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	S&E highest degree holders, by degree level and employment sector
Table 3-10	R&D activity rate of scientists and engineers employed in S&E occupations, by broad occupational category and level of highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Scientists and engineers employed in S&E occupations and active in R&D, by broad occupational category and level of highest degree
Table 3-10			National Survey of College Graduates	Scientists and engineers employed in S&E occupations, by broad occupational category and level of highest degree
App. Table 3-10	Postgraduation plans of doctorate recipients with definite commitments, by broad field of study: Selected years, 1975–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Postgraduation plans of doctorate recipients with definite commitments, by broad field of study: 1975, 1985
App. Table 3-10			Survey of Earned Doctorates	Postgraduation plans of doctorate recipients with definite commitments, by broad field of study: Selected years, 1995–2015
Figure 3-11	Broad S&E occupational categories, by employment sector: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Broad S&E occupational categories, by employment sector
Table 3-11	Scientists and engineers participating in work-related training, by labor force status and occupation: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Scientists and engineers participating in work-related training, by labor force status and occupation
App. Table 3-11	Age profile of employed scientists and engineers, by sex and field of highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Age profile of employed scientists and engineers, by sex and field of highest degree
Figure 3-12	Scientists and engineers employed in the business sector, by employer size: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Scientists and engineers employed in the business sector, by employer size
Table 3-12	Scientists and engineers who are working involuntarily out of field, by S&E degree field: Selected years, 2003–15	National Science Foundation, National Center for Science and Engineering Statistics	SESTAT Integrated File	Scientists and engineers who are working involuntarily out of field, by S&E degree field
App. Table 3-12	Employed scientists and engineers, by sex and occupation: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employed scientists and engineers, by sex and occupation
Figure 3-13	Employed scientists and engineers with R&D activity, by broad field of highest degree and broad occupational category: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employed scientists and engineers by broad field of highest degree and broad occupational category
Figure 3-13			National Survey of College Graduates	Employed scientists and engineers with R&D activity, by broad field of highest deree and broad occupational category
Table 3-13	Annual salaries in science, technology, and related occupations: May 2013–May 2016	Bureau of Labor Statistics	Occupational Employment Statistics (OES) Survey	OES National occupational employment and wage estimates
App. Table 3-13	Employed S&E highest degree holders, by sex and field of degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employed S&E highest degree holders, by sex and field of degree
Figure 3-14	Employed SEH doctorate holders with R&D activity, by years since doctoral degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Employed SEH doctorate holders with R&D activity, by years since doctoral degree
Table 3-14	Labor market indicators for recent S&E degree recipients up to 5 years after receiving degree, by level and field of highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Involuntary out-of-field (IOF) rate for recent S&E degree recipients up to 5 years after receiving degree, by level and field of highest degree
				Median annual salary for recent S&E degree recipients up to 5 years after receiving degree, by level and field of highest degree
				Unemployment rate for recent S&E degree recipients up to 5 years after receiving degree, by level and field of highest degree
App. Table 3-14	Employed S&E highest degree holders, by sex, race, ethnicity, field of highest degree, and broad occupational category: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employed S&E highest degree holders, by race, field of highest degree, and broad occupational category
App. Table 3-14			National Survey of College Graduates	Employed S&E highest degree holders, by sex, field of highest degree, and broad occupational category
Figure 3-15	Unemployment rates of S&E highest degree holders, by level of and years since highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Unemployment rates of S&E highest degree holders, by level of and years since highest degree
Table 3-15	Employment characteristics of recent SEH doctorate recipients up to 3 years after receiving doctorate, by field of degree: 2001–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Employment characteristics of recent SEH doctorate recipients up to 3 years after receiving doctorate, by field of degree
App. Table 3-15	Employed scientists and engineers, by race, ethnicity, and occupation: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employed scientists and engineers, by race, ethnicity, and occupation
Figure 3-16	Unemployment rate, by selected groups: 1990–2015	U.S. Census Bureau	Current Population Survey	Merged Outgoing Rotation Group (MORG) files: 1990-2015
Table 3-16	Employed SEH doctorate recipients holding tenure and tenure-track appointments at academic institutions, by field of and years since degree: Selected years, 1993–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Employed SEH doctorate recipients holding tenure and tenure-track appointments at academic institutions, by field of and years since degree
App. Table 3-16	Employed S&E highest degree holders, by race, ethnicity, and field of degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employed S&E highest degree holders, by race, ethnicity, and field of degree
Figure 3-17	S&E highest degree holders working involuntarily out of field, by field of and years since highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	S&E highest degree holders working involuntarily out of field, by field of and years since highest degree
Table 3-17	Median salaries for recent SEH doctorate recipients up to 5 years after receiving degree, by field of degree and employment sector: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Median salaries for recent SEH doctorate recipients up to 5 years after receiving degree, by field of degree and employment sector
App. Table 3-17	Estimate and median salary of full-time workers with highest degree in S&E field, by sex and occupation: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Estimate of full-time workers with highest degree in S&E field, by sex and occupation
App. Table 3-17			National Survey of College Graduates	Median salary of full-time workers with highest degree in S&E field, by sex and occupation
Figure 3-18	Median salaries for employed, college-educated individuals, by broad field of highest degree and years since highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Median salaries for employed college-educated individuals, by broad field of highest degree and years since highest degree
Table 3-18	Median salaries for recent U.S. SEH doctorate recipients in postdoc and non-postdoc positions up to 5 years after receiving degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Median salaries for recent U.S. SEH doctorate recipients in postdoc and non-postdoc positions up to 5 years after receiving degree
App. Table 3-18	Estimate and median salary of full-time workers with highest degree in S&E field, by race, ethnicity, and occupation: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Estimate of full-time workers with highest degree in S&E field, by race, ethnicity, and occupation
App. Table 3-18			National Survey of College Graduates	Median salary of full-time workers with highest degree in S&E field, by race, ethnicity, and occupation
Figure 3-19	Median salaries for S&E highest degree holders, by broad field of and years since highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Median salaries for S&E highest degree holders, by broad field of and years since highest degree
Table 3-19	Racial and ethnic distribution of U.S. residents, and of employed individuals in S&E occupations, with S&E degrees, and with college degrees: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Racial and ethnic distribution of employed individuals in S&E occupations
				Racial and ethnic distribution of employed individuals with college degrees
				Racial and ethnic distribution of employed individuals with highest degree in S&E
		U.S. Census Bureau	American Community Survey	2015 ACS 1-year PUMS
App. Table 3-19	Race and ethnic distribution of workers in S&E occupations, by nativity: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Race and ethnic distribution of workers in S&E occupations, by nativity
Figure 3-20	Median salaries for S&E highest degree holders, by level of and years since highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Median salaries for S&E highest degree holders, by level of and years since highest degree
Table 3-20	Distribution of workers in S&E occupations, by race and ethnicity: Selected years, 1993–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Distribution of workers in S&E occupations, by race and ethnicity: 2015
Table 3-20			SESTAT Integrated File	Distribution of workers in S&E occupations, by race and ethnicity: 1993–2015
App. Table 3-20	Occupations of new H-1B visa recipients: FY 2016	U.S. Department of Homeland Security	Characteristics of H-1B Specialty Occupation Workers	Occupations of new H-1B visa recipients
Figure 3-21	Recent U.S. SEH doctorate recipients in postdoc positions, by field of and years since doctorate: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Recent U.S. SEH doctorate recipients in postdoc positions, by field of and years since doctorate
Table 3-21	Racial and ethnic distribution of employed individuals with S&E highest degree, by level of highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Racial and ethnic distribution of employed individuals with highest degree in S&E
App. Table 3-21	Plans of foreign recipients of U.S. doctorates to stay in the United States, by field of doctorate and place of origin: 2004–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Plans of foreign recipients of U.S. doctorates to stay in the United States, by field of doctorate and place of origin
Figure 3-22	Age distribution of scientists and engineers in the labor force, by sex: 1993 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Age distribution of scientists and engineers in the labor force, by sex: 2015
Figure 3-22			SESTAT Integrated File	Age distribution of scientists and engineers in the labor force, by sex: 1993
Table 3-22	Racial and ethnic distribution of employed individuals with S&E highest degree, by level of highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Racial and ethnic distribution of employed individuals with highest degree in S&E
App. Table 3-22	R&D personnel in selected regions or countries: 2000–15	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	Total R&D personnel (FTE)
Figure 3-23	Age distribution of employed scientists and engineers, by broad occupational category and broad field of highest degree: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Age distribution of employed scientists and engineers, by broad occupational category and broad field of highest degree
Table 3-23	Racial and ethnic distribution of employed women in S&E occupations and with S&E highest degrees: 1995 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Racial and ethnic distribution of employed women in S&E occupations and with S&E highest degrees: 2015
Table 3-23			SESTAT Integrated File	Racial and ethnic distribution of employed women in S&E occupations and with S&E highest degrees: 1995
App. Table 3-23	Researchers as a share of total employment and GERD per researcher in selected regions, countries, or economies: 2015	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	GERD at constant prices and PPP (2010 $) (OECD)
				Total researchers (FTE)
				Total researchers per thousand total employment
Figure 3-24	Older scientists and engineers who work full time, by age and highest degree level: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Older scientists and engineers who work full time, by age and highest degree
Table 3-24	Median annual salary among S&E highest degree holders working full time, by sex, race, and ethnicity: 1995, 2003, and 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Median annual salary among S&E highest degree holders working full time, by sex, race, and ethnicity: 2015
Table 3-24			SESTAT Integrated File	Median annual salary among S&E highest degree holders working full time, by sex, race, and ethnicity: 1995, 2003
Figure 3-25	Older scientists and engineers who report not working because of retirement, by age and highest degree level: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Older scientists and engineers who report not working because of retirement, by age
Table 3-25	Foreign-born workers in S&E occupations, by education level: 1993, 2003, and 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Foreign-born worker in S&E occupations, by education level: 2015
			SESTAT Integrated File	Foreign-born worker in S&E occupations, by education level: 1995, 2003
		U.S. Census Bureau	American Community Survey	2003 ACS PUMS
		U.S. Census Bureau	American Community Survey	2015 ACS 1-year PUMS
Figure 3-26	Women in the workforce and in S&E: 1993 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Women as a percentage of S&E highest degree holders
				Women as a percentage of the college-educated workforce
				Women in S&E occupations: 2015
Table 3-26	Annual salaries for new H-1B visa recipients, by occupation: FY 2016	U.S. Department of Homeland Security	Characteristics of H-1B Specialty Occupation Workers	Annual Compensation of H-1B Beneficiaries for Initial Employment by Major Occupation Group: FY 2015
Figure 3-27	Women in S&E occupations: 1993–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Women in S&E occupations: 2015
Figure 3-27	Women in S&E occupations: 1993–2015		SESTAT Integrated File	Women in S&E occupations: 1993-2015
Table 3-27	Temporary visa holders receiving S&E doctorates in 2010 and 2005 who were in the United States in 2015, by S&E degree field	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Temporary visa holders receiving S&E doctorates in 2010 and 2005 who were in the United States in 2015, by S&E degree field
Figure 3-28	Employed women with highest degree in S&E, by degree level: 1993–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Employed women with highest degree in S&E, by degree level: 2015
Figure 3-28			SESTAT Integrated File	Employed women with highest degree in S&E, by degree level: 1993-2015
Table 3-28	Temporary visa holders receiving S&E doctorates in 2010 and 2005 who were in the United States in 2015, by country of citizenship at time of degree	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Temporary visa holders receiving S&E doctorates in 2010 and 2005 who were in the United States in 2015, by country of citizenship at time of degree
Figure 3-29	Highest degree holders in S&E not in the labor force, by sex and age: 2015	National Science Foundation, National Center for Science and Engineering Statistics	SESTAT Integrated File	Highest degree holders in S&E not in the labor force, by sex and age
Figure 3-30	Estimated salary differences between women and men with highest degree in S&E employed full time, controlling for selected characteristics, by degree level: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Estimated salary differences between women and men with highest degree in S&E employed full time, controlling for selected characteristics, by degree level
Figure 3-31	Estimated salary differences between minorities and whites and Asians with highest degree in S&E employed full time, controlling for selected characteristics, by degree level: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Estimated salary differences between minorities and whites and Asians with highest degree in S&E employed full time, controlling for selected characteristics, by degree level
Figure 3-32	Foreign-born scientists and engineers employed in S&E occupations, by highest degree level and broad S&E occupational category: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Foreign-born scientists and engineers employed in S&E occupations, by highest degree level and broad S&E occupational category
Figure 3-33	Foreign-born individuals with highest degree in S&E living in the United States, by place of birth: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Foreign-born individuals with highest degree in S&E living in the United States, by place of birth
Figure 3-34	Temporary work visas issued in categories with many high-skilled workers: FYs 1991–2015	U.S. Department of State	Nonimmigrant Visa Statistics	Nonimmigrant Visa Issuances by Visa Class and by Nationality, and Nonimmigrant Visas by Individual Class of Admission
Figure 3-35	Plans at graduation of foreign recipients of U.S. S&E doctoral degrees to stay in the United States, by year of doctorate: 1995–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Plans at graduation of foreign recipients of U.S. S&E doctoral degrees to stay in the United States, by year of doctorate
Figure 3-36	Five-year and ten-year stay rates for U.S. S&E doctoral degree recipients with temporary visas at graduation, 2001–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Five-year and ten-year stay rates for U.S. S&E doctoral degree recipients with temporary visas at graduation
Figure 3-36		Oak Ridge Institute for Science and Education	Stay Rates of Foreign Doctorate Recipients from U.S. Universities	Five-year and ten-year stay rates for U.S. S&E doctoral degree recipients with temporary visas at graduation
Figure 3-37	Five-year and ten-year stay rates for temporary residents receiving S&E doctorates in 2005 and 2010, by foreign support: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Five-year and ten-year stay rates for temporary residents receiving S&E doctorates in 2005 and 2010, by foreign support: 2015
Figure 3-38	Estimated number of researchers in selected regions or countries: 2000–15	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	Total researchers (FTE)
Figure 3-39	Researchers as a share of total employment in selected regions or countries: 2000–15	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	Total researchers per thousand total employment
Figure 3-40	Gross domestic R&D expenditures (GERD) per researcher in selected regions or countries: 2000–15	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	GERD at constant prices and PPP (2010 $) (OECD)
Figure 3-40		Organization for Economic Cooperation and Development	Main Science and Technology Indicators	Total researchers (FTE)
Figure 3-A	Projected increases in employment for S&E and other selected occupations: 2014–24	Bureau of Labor Statistics	Employment Projections	Employment Projections program, special tabulations of 2014–24 Employment Projections.
Table 3-A	Bureau of Labor Statistics projections of employment and job openings in S&E and other selected occupations: 2014–24	Bureau of Labor Statistics	Employment Projections	Employment Projections program, special tabulations of 2014–24 Employment Projections.
Figure 3-B	Projected job openings in S&E and other selected occupations: 2014–24	Bureau of Labor Statistics	Employment Projections	Employment Projections program, special tabulations of 2014–24 Employment Projections.
Table 3-B	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution and region of employment: 2001–15 combined	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment
Table 3-C	Region and state of doctoral institution and employment of doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector: 2001–15 combined	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment
Table 3-D	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution: 5-year cohorts, 2001–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution
Table 3-E	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment: 5-year cohorts, 2001–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment
Table 3-F	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution: 5-year cohorts, 2001–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Earned Doctorates	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment

Chapter 4. Research and Development: U.S. Trends and International Comparisons

Graphic	Title	Provider	Product	Source
Figure 4-1	U.S. R&D, by performing sector and source of funds: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures, by performing sector and source of funds: annual series
Figure 4-1			National Patterns of R&D Resources	U.S. R&D expenditures, by source of funds and performing sector: annual series
Table 4-1	U.S. R&D expenditures, by performing sector and source of funds: 2008–15	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures by performing sector and source of funds: annual series
App. Table 4-1	U.S. gross domestic product, R&D, and ratio of R&D to gross domestic product (and components): 1953–2015	Bureau of Economic Analysis	National Economic Accounts	Current dollar and real GDP
App. Table 4-1		National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	Gross domestic product, total R&D, ratio of R&D to gross domestic product: 1953-2015
Figure 4-2	Year-to-year changes in U.S. R&D expenditures, by performing sector: 2010–15	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures by performing sector and source of funds: annual series
Table 4-2	Annual rates of growth in U.S. R&D expenditures, total and by performing sectors: 1988–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures by performing sector and source of funds: annual series
App. Table 4-2	U.S. research and development expenditures, by performing sector and source of funds: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures by performing sector and source of funds
Figure 4-3	Ratio of U.S. R&D to gross domestic product, by roles of federal, business, and other nonfederal funding for R&D: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. gross domestic product and R&D: 1953–2015: Gross domestic product, total R&D, ratio of R&D to gross domestic product
Table 4-3	U.S. R&D expenditures, by performing sector, source of funds, and type of work: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. applied research expenditures, by performing sector and source of funds: annual series
				U.S. basic research expenditures, by performing sector and source of funds: annual series
				U.S. development expenditures, by performing sector and source of funds: annual series
App. Table 4-3	U.S. basic research expenditures, by performing sector and source of funds: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. basic research expenditures, by source of funds and performing sector
Figure 4-4	U.S. total R&D expenditures, by source of funds: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures, by source of funds and performing sector: annual series
Table 4-4	U.S. R&D expenditures by type of work: Selected years, 1970–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. applied research expenditures, by performing sector and source of funds: annual series
				U.S. basic research expenditures, by performing sector and source of funds: annual series
				U.S. development expenditures, by performing sector and source of funds: annual series
App. Table 4-4	U.S. applied research expenditures, by performing sector and source of funds: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. applied research expenditures, by performing sector and source of funds: annual series
Figure 4-5	Global R&D expenditures, by region: 2015	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	Global R&D expenditures, by region (OECD)
Figure 4-5	Global R&D expenditures, by region: 2015	UNESCO Institute for Statistics	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	Global R&D expenditures, by region (UIS)
Table 4-5	International comparisons of gross domestic expenditures on R&D and R&D share of gross domestic product, by region, country, or economy: 2015 or most recent year	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	GERD - current PPP$ (OECD)
		Organization for Economic Cooperation and Development	Main Science and Technology Indicators	GERD as a percentage of GDP (OECD)
		UNESCO Institute for Statistics	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GERD - current PPP$ (UIS)
		UNESCO Institute for Statistics		GERD as a percentage of GDP (UIS)
App. Table 4-5	U.S. development expenditures, by performing sector and source of funds: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. development expenditures, by performing sector and source of funds: annual series
Figure 4-6	Gross domestic expenditures on R&D, by the United States, the EU, and selected other countries: 1981–2015	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	GERD - current PPP$ (OECD)
Figure 4-6		UNESCO Institute for Statistics	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GERD - current PPP$ (UIS)
Table 4-6	Gross expenditures on R&D for selected countries, by performing sector and source of funds: 2015 or most recent year	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	Percentage of GERD financed by abroad (OECD)
				Percentage of GERD financed by government (OECD)
				Percentage of GERD financed by industry (OECD)
				Percentage of GERD financed by other national sources (OECD)
				Percentage of GERD performed by the business enterprise sector (OECD)
				Percentage of GERD performed by the government sector (OECD)
				Percentage of GERD performed by the higher education sector (OECD)
				Percentage of GERD performed by the private non-profit sector (OECD)
		UNESCO Institute for Statistics	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GERD - financed by abroad % (UIS)
				GERD - financed by business enterprise % (UIS)
				GERD - financed by government % (UIS)
				GERD - financed by higher education % (UIS)
				GERD - financed by private non-profit % (UIS)
				GERD - performed by Business enterprise % (UIS)
				GERD - performed by Government % (UIS)
				GERD - performed by Higher education % (UIS)
				GERD - performed by Private non-profit % (UIS)
App. Table 4-6	U.S. R&D expenditures, by source of funds and performing sector: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures, by performing sector and source of funds
Figure 4-7	Gross domestic expenditures on R&D as a share of gross domestic product, by the United States, the EU, and selected other countries: 1981–2015	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	GERD as a percentage of GDP (OECD)
Figure 4-7		UNESCO Institute for Statistics	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GERD as a percentage of GDP (UIS)
Table 4-7	Gross expenditures on R&D for selected countries, by type of work: 2015 or most recent year	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	R&D expenditure by sector of performance and type of R&D: China
				R&D expenditure by sector of performance and type of R&D: France
				R&D expenditure by sector of performance and type of R&D: Germany
				R&D expenditure by sector of performance and type of R&D: Japan
				R&D expenditure by sector of performance and type of R&D: South Korea
				R&D expenditure by sector of performance and type of R&D: United Kingdom
				R&D expenditure by sector of performance and type of R&D: United States
		UNESCO Institute for Statistics	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GERD - applied research (current PPP$) (UIS)
				GERD - basic research (current PPP$) (UIS)
				GERD - current PPP$ (UIS)
				GERD - experimental development (current PPP$) (UIS)
				GERD - not specified activities (current PPP$) (UIS)
App. Table 4-7	U.S. basic research expenditures, by source of funds and performing sector: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. basic research expenditures, by source of funds and performing sector
Figure 4-8	Federal obligations for R&D and R&D plant: FYs 1980–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Federal obligations for research and development, by type of R&D, and for R&D plant: FYs 1951–2017
Table 4-8	Funds spent for business R&D performed in the United States: 2008–15	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	Funds spent for business R&D performed in the United States
App. Table 4-8	U.S. applied research expenditures, by source of funds and performing sector: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. applied research expenditures, by source of funds and performing sector
Figure 4-9	Federal obligations for R&D and R&D plant, current vs. constant dollars: FYs 1980–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Research, development, and R&D plant obligations by typ of R&D: FYs 1951–2017
Table 4-9	Funds spent for business R&D performed in the United States, by source of funds and selected industry: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	Funds spent for business R&D performed in the United States, by source of funds and selected industry: 2015
App. Table 4-9	U.S. development expenditures, by source of funds and performing sector: 1953–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. development expenditures, by source of funds and performing sector
Figure 4-10	Federal obligations for R&D and R&D plant, by selected agencies: FYs 2007–16	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Federal obligations for research, development, and R&D plant, by agency: FYs 2007–17
Table 4-10	Sales and R&D intensity for companies that performed or funded R&D, by selected industry: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	Sales and R&D intensity for companies that performed or funded R&D, by selected industry
App. Table 4-10	U.S. R&D expenditures, by state, performing sector, and funding sector: 2015	Bureau of Economic Analysis	Regional Economic Accounts	Gross domestic product by state, current dollars
App. Table 4-10		National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures, by state, by sector and source of funds
Figure 4-11	Federal obligations for R&D, by agency and type of work: FY 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Research and development obligations, by agency and type of R&D: FY 2015
Table 4-11	Funds spent for business R&D performed in the United States, by size of company: Selected years, 2008–15	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	Funds spent for business R&D performed in the United States, by size of company
App. Table 4-11	U.S. R&D and gross domestic product, by state: 2015	Bureau of Economic Analysis	Regional Economic Accounts	Gross domestic product by state, current dollars
App. Table 4-11	U.S. R&D and gross domestic product, by state: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures by state
Figure 4-12	Federal obligations for research, by agency and major S&E field: FY 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Research obligations by agency and field of science and engineering: FY 2015
Table 4-12	Business expenditures for R&D, by selected countries and top R&D-performing industries: 2014 or most recent year	Organization for Economic Cooperation and Development	Analytical Business Enterprise Resarch and Development (ANBERD) Database	STAN R&D expenditures in industry (ISIC Rev. 4) - China
				STAN R&D expenditures in industry (ISIC Rev. 4) - France
				STAN R&D expenditures in industry (ISIC Rev. 4) - Germany
				STAN R&D expenditures in industry (ISIC Rev. 4) - Japan
				STAN R&D expenditures in industry (ISIC Rev. 4) - South Korea
				STAN R&D expenditures in industry (ISIC Rev. 4) - United Kingdom
				STAN R&D expenditures in industry (ISIC Rev. 4) - United States
App. Table 4-12	Gross expenditures on R&D and expenditures for R&D as a share of gross domestic product, for selected countries or regions: 1981–2015	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	GDP - current PPP$ (OECD)
				GERD - constant PPP$ (OECD)
				GERD - current PPP$ (OECD)
				GERD as a percentage of GDP (OECD)
				Implicit GDP price indices (OECD)
		UNESCO Institute for Statistics	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GDP - current PPP$ (UIS)
				GDP deflators (UIS)
				GERD - constant PPP$ (UIS)
				GERD - current PPP$ (UIS)
				GERD as a percentage of GDP (UIS)
Table 4-13	R&D performed by majority-owned affiliates of foreign companies in the United States, by selected industry of affiliate and investor country: 2014	Bureau of Economic Analysis	Survey of Foreign Direct Investment in the United States	R&D performed by majority-owned affiliates of foreign companies in the United States, by selected industry of affiliate and investor country
App. Table 4-13	Funds spent for business R&D performed in the United States, by source of funds and selected industry: 2008–14	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	Funds spent for business R&D performed in the United States, by source of funds and selected industry: 2015
Table 4-14	R&D performed abroad by majority-owned foreign affiliates of U.S. parent companies, by selected industry of affiliate and host region, country, or economy: 2014	Bureau of Economic Analysis	Survey of U.S. Direct Investment Abroad	Direct Investment and Multinational Enterprises (annual series)
App. Table 4-14	Federal research and experimentation tax credit claims, by NAICS industry: 2001–13	Internal Revenue Service	Statistics of Income Program	SOI Tax Stats - Corporation Research Credit
Table 4-15	Federal obligations for R&D and R&D plant, by agency: FYs 2007–16	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Federal obligations for research, development, and R&D plant, by agency: FYs 2007–17
App. Table 4-15	R&D performed by majority-owned affiliates of foreign companies in the United States, by region, country, or economy of ultimate beneficial owner: 1997–2014	Bureau of Economic Analysis	Survey of Foreign Direct Investment in the United States	Direct Investment and Multinational Enteprises (annual series)
Table 4-16	Federal obligations for R&D and R&D plant, by agency and performer: FY 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Federal obligations for R&D plant, by agency and performer: FY 2015
Table 4-16			Survey of Federal Funds for Research and Development	Federal obligations for research and development, by agency and performer: FY 2015
App. Table 4-16	R&D performed by majority-owned affiliates of foreign companies in the United States, by NAICS industry of affiliate: 2007–14	Bureau of Economic Analysis	Survey of Foreign Direct Investment in the United States	Direct Investment and Multinational Enteprises (annual series)
Table 4-17	Federal obligations for R&D, by agency and type of work: FY 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Research and development obligations, by agency and type of R&D: FY 2015
App. Table 4-17	R&D performed abroad by majority-owned foreign affiliates of U.S. parent companies, by region, country, or economy: 1997–2014	Bureau of Economic Analysis	Survey of U.S. Direct Investment Abroad	Direct Investment and Multinational Enterprises (annual series)
Table 4-18	Government R&D support by major socioeconomic objectives, by selected countries or regions and years: Selected years, 2000–15	Organization for Economic Cooperation and Development	Main Science and Technology Indicators	Civil budget R&D as a percentage of total GBARD
				Defense budget R&D as a percentage of total GBARD
				Economic development programs as a percentage of civil GBARD
				Education and social programs as a percentage of civil GBARD
				General university funds (GUF) as a percentage of civil GBARD
				Health and Environment programs as a percentage of civil GBARD
				Non-oriented research programs as a percentage of civil GBARD
				Space programs as a percentage of civil GBARD
				Total GBARD -current PPP$
App. Table 4-18	R&D performed abroad by majority-owned foreign affiliates of U.S. parent companies, by selected NAICS industry of affiliate: 2009–14	Bureau of Economic Analysis	Survey of U.S. Direct Investment Abroad	Direct Investment and Multinational Enterprises (annual series)
App. Table 4-19	R&D performed in the United States by U.S. multinational company parent companies, by NAICS industry: 2009–14	Bureau of Economic Analysis	Survey of Foreign Direct Investment in the United States	Direct Investment and Multinational Enteprises (annual series)
App. Table 4-20	Difference in federal R&D support, as reported by performers and federal agencies: 1985–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures, by source of funds and performing sector: annual series
App. Table 4-20			Survey of Federal Funds for Research and Development	Federal obligations for research and development, by performer
App. Table 4-21	Federal obligations for R&D and R&D plant, by type of work: FYs 1953–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Research, development, and R&D plant obligations by typ of R&D: FYs 1951–2017
App. Table 4-22	Federal funding for R&D and R&D plant, budget authority versus obligations: FYs 1953–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Federal budget authority for R&D and R&D plant
App. Table 4-22			Survey of Federal Funds for Research and Development	Federal obligations for R&D and R&D plant
App. Table 4-23	Federal obligations for R&D and R&D plant, by agency, performer, and type of work: FY 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Federal obligations for applied research, by agency and performer: FY 2015
				Federal obligations for basic research, by agency and performer: FY 2015
				Federal obligations for development, by agency and performer: FY 2015
				Federal obligations for R&D plant, by agency and performer: FY 2015
App. Table 4-24	Federal obligations for research, by agency and S&E field: FY 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Research obligations by agency and field of science and engineering: FY 2015
App. Table 4-25	Federal obligations for research, by detailed S&E field: Selected years, FYs 1990–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Federal Funds for Research and Development	Federal obligations for research, by detailed field of science and engineering: FYs 2007-17
				Federal obligations for research, by detailed field of science and engineering: FYs 1990-2000
				Federal obligations for research, by detailed field of science and engineering: FYs 1996-2006
Figure 4-A	Difference in federal R&D support, as reported by performers and federal agencies: 1985–2015	National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	U.S. R&D expenditures, by source of funds and performing sector: annual series
Figure 4-A			Survey of Federal Funds for Research and Development	Federal obligations for research and development, by performer
Table 4-A	Top 10 states in U.S. R&D performance, by sector and intensity: 2015	Bureau of Economic Analysis	Regional Economic Accounts	Gross domestic product by state, current dollars
Table 4-A		National Science Foundation, National Center for Science and Engineering Statistics	National Patterns of R&D Resources	R&D performance by state: 2015

Chapter 5. Academic Research and Development

Graphic	Title	Provider	Product	Source
Figure 5-1	Academic R&D expenditures, by source of funding: FYs 1972–2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Higher education R&D expenditures for S&E by funding source
Table 5-1	R&D expenditures at universities and colleges, by field: FY 2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	R&D expenditures at universities and colleges
App. Table 5-1	Total and federally financed higher education R&D expenditures, by type of R&D: FYs 1953–2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Total and federally financed higher education R&D expenditures, by character of work (annual series)
Figure 5-2	Federal and nonfederal funding of academic R&D expenditures: FYs 1997–2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Federally financed and total higher education R&D expenditures for S&E
Table 5-2	Higher education R&D expenditures, by source, character of work, and institution type: FYs 2012–16	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Higher education R&D expenditures by source, character of work, and institution type
App. Table 5-2	Sources of R&D funding for public and private academic institutions: Selected years, FYs 1990–2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Sources of S&E R&D funds at public and private academic institutions
Figure 5-3	Federally financed academic R&D expenditures, by agency and S&E field: FY 2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Federally Financed R&D Expenditures by agency and field
Table 5-3	Higher education R&D expenditures, by Carnegie classification, institution type, and type of cost: FY 2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Higher education R&D expenditures by Carnegie classification, institution type, and type of cost
App. Table 5-3	Federally financed higher education R&D expenditures, by federal agency and field: FY 2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Federally financed higher education R&D expenditures by federal agency and R&D field
Figure 5-4	Sources of R&D funding for public and private academic institutions: FY 2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Sources of S&E R&D funding by academic institution type
Table 5-4	Top six federal agencies' shares of federally funded academic R&D expenditures: FYs 2007–16	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Federal agencies' shares of federally funded academic S&E R&D expenditures
App. Table 5-4	Higher education R&D expenditures, by source of funds and field: FY 2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Higher education S&E R&D expenditures by funding source and field
Figure 5-5	Share of academic R&D, by institution rank in R&D expenditures: FYs 1997–2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Higher education S&E R&D expenditures ranked by R&D expenditures (annual series)
Table 5-5	Federal funding of academic S&E R&D, by agency and field: FY 2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Federal funding of academic S&E R&D, by agency and field
App. Table 5-5	Higher education R&D expenditures, by field: FYs 2007–16	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Total higher education R&D expenditures by field of S&E
Figure 5-6	Change in S&E research space in academic institutions, by 2-year period: FYs 1988–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Science and Engineering Research Facilities	Academic science and engineering research space, by field (annual series)
Table 5-6	Growth of academic R&D expenditures, by field: FYs 1997–2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Growth of academic R&D expenditures by S&E field
App. Table 5-6	Higher education R&D expenditures at top 100 R&D-performing institutions, ranked by FY 2015 R&D expenditures: FYs 2007–16	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Higher education S&E R&D expenditures ranked by R&D expenditures
Figure 5-7	Research space at academic institutions, by S&E field: FYs 2007 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Science and Engineering Research Facilities	Research Space at Academic Institutions
Table 5-7	Total and institutionally funded R&D expenditures at universities and colleges, by fiscal year, institution type, and Carnegie classification: FYs 2012–16	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Total and institutionally funded R&D expenditures for S&E and all fields by institutional control and Carnegie classification
App. Table 5-7	Expenditures for academic R&D passed through to and received by subrecipients: FYs 2012–16	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Expenditures for academic R&D passed through to and received by subrecipients
Figure 5-8	Current fund expenditures for S&E research equipment at academic institutions, by selected S&E field: Fys 2006-16	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Current fund expenditures for S&E research equipment at academic institutions
Table 5-8	Higher education R&D expenditures at all universities and colleges financed by institutional funds, by source, fiscal year, institution type, and Carnegie classification: FYs 2012–16	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Total and institutionally financed higher education R&D expenditures for all fields, by source, fiscal year, institutional type, and Carnegie Classification
App. Table 5-8	Research space at academic institutions, by S&E field: FYs 2007–2013	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Science and Engineering Research Facilities	Academic science and engineering research space, by field (annual series)
Figure 5-9	S&E doctorate holders employed in academia, by type of position: 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academic by position type
Table 5-9	Condition of S&E research space in academic institutions, by field: FY 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Science and Engineering Research Facilities	Condition of science and engineering research space in academic institutions, by field
App. Table 5-9	Source of funds for new construction of S&E research space at academic institutions, by year of project start and type of institution: FYs 2002–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Science and Engineering Research Facilities	Source of funds for new construction of S&E research space at academic institutions by public and private institution
				Source of funds for new construction of science and engineering research space in academic institutions, by type of institution
				Source of funds for new construction of science and engineering research space in academic institutions, by year of project start and type of institution
Figure 5-10	S&E doctorate holders employed in academia, by field: Selected years, 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by S&E field
Table 5-10	New construction of S&E research space in academic institutions, by field and time of construction: FYs 2006–17	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Science and Engineering Research Facilities	New construction of S&E research space in academic institutions, by field and time of construction (annual series)
App. Table 5-10	Costs for repair and renovation of research space at academic institutions, by S&E field and time of repair and renovation: FYs 2014–17	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Science and Engineering Research Facilities	Costs for repair and renovation by field, research animal space, and time of repair and renovation
Figure 5-11	Tenure status of S&E doctorate holders employed in academia: 1995-2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Tenure Status of S&E Doctorate Holders
Table 5-11	Tenure status, by field of S&E doctorate holders employed in academia: 1995 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Tenure status by field of doctorate
App. Table 5-11	Source of funds for repair and renovation of S&E research space at academic institutions, by year of project start and type of institution: FYs 2002–15	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Science and Engineering Research Facilities	Source of funds for repair and renovation of S&E research space at academic institutions
Figure 5-12	Women as a percentage of S&E doctorate holders employed full time in academia, by academic rank: Selected years, 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Women as a percentage of S&E doctorate holders employed full time in academia by academic rank
Table 5-12	Tenure status of S&E doctorate holders employed in academia, by age: 1995 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Tenure status of academically employed S&E doctorate holders by age
App. Table 5-12	Current fund expenditures for research equipment at academic institutions, by S&E field: FYs 2002-2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Expenditures for research equipment at academic institutions by S&E field
Figure 5-13	Women as a percentage of younger and older S&E doctorate holders employed full time in academia, by academic rank: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Tenure status of academically employed S&E doctorate holders by age
Figure 5-13			Survey of Doctorate Recipients	Tenure status of S&E doctorate holders employed in academia by sex and field
Table 5-13	Tenure status of S&E doctorate holders employed in academia, by career stage and field of doctorate: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Tenure status, by career stage and field of doctorate
App. Table 5-13	Federal share of current funding for research equipment at academic institutions, by S&E field: FYs 2002–2016	National Science Foundation, National Center for Science and Engineering Statistics	Higher Education Research and Development Survey (HERD)	Total and federally financed higher education research equipment expenditures, by S&E field
Figure 5-14	Black, Hispanic, and Asian S&E doctorate holders as a percentage of full-time faculty positions, by sex: 2003 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by type of position and degree field
Table 5-14	Women as a percentage of S&E doctorate holders employed in academia, by position: Selected years, 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Women as a percentage of SEH doctorate holders employed in academia, by position
App. Table 5-14	S&E doctorate holders employed in academia, by type of position and degree field: 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by type of position and degree field
Figure 5-15	Tenure status of underrepresented minority S&E doctorate holders: 2003 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Tenure Status of S&E Doctorate Holders
Table 5-15	Tenured S&E doctorate holders employed in academia, by sex and field: 1995 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Tenure status of S&E doctorate holders employed in academia by sex and field
App. Table 5-15	S&E doctorate holders employed in academia, by type of position, sex, and degree field: 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by type of position, sex, and degree field
Figure 5-16	U.S.-trained S&E doctorate holders employed in academia, by birthplace: 1973-2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	US-Trained S&E doctorate holders employed in academia by birthplace
Table 5-16	Underrepresented minorities as a percentage of S&E doctorate holders employed in academia, by position: Selected years, 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Underrepresented minorities as a percentage of SEH doctorate holders employed in academia by position
App. Table 5-16	S&E doctorate holders employed in academia, by type of position, race, ethnicity, and degree field: 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by type of position, degree field, race, and ethnicity
Figure 5-17	Full-time faculty ages 65–75 at research universities and other higher education institutions: 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Full-time faculty ages 65–75 at research universities and other higher education institutions
Table 5-17	S&E doctorate holders employed in academia, by age: 1995 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Academically employed SEH doctorate holders by age
App. Table 5-17	S&E doctorate holders employed in academia, by type of position, degree field, and citizenship: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by type of position, degree field, and citizenship
Figure 5-18	Primary work activity of full-time doctoral S&E faculty: Selected years, 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Job duties of full-time doctoral S&E faculty
Table 5-18	Full-time S&E faculty reporting research as a primary work activity, by years since doctorate and degree field: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academic by position type
App. Table 5-18	Age distribution of S&E doctorate holders in full-time faculty positions at research universities and other academic institutions: 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Age distribution of S&E doctorate holders in full-time faculty positions at research universities and other academic institutions
Figure 5-19	S&E doctorate holders employed in academia in a postdoctoral position, by S&E degree field: Selected years, 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academic postdoc positions by degree field
Table 5-19	S&E doctorate holders employed in academia in postdoc positions, by demographic group: Selected years, 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academia in postdoc positions, by demographic group
App. Table 5-19	S&E doctorate holders employed in academia, by research priority, type of position, and degree field: 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by research priority, type of position, and degree field
Figure 5-20	S&E doctorate holders employed in very high research activity institutions with federal support, by sex, race, and ethnicity: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Full-time S&E doctoral faculty in very high research activity institutions with federal support, by gender and race and ethnicity
Table 5-20	S&E doctorate holders employed in academia in postdoc positions, by Carnegie classification of employer and years since doctorate: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders with academic employment in postdoc positions by Carnegie institution type and years since doctorate
App. Table 5-20	Early career S&E doctorate holders employed in academia, by Carnegie classification of institution, years since doctorate, and type of position: 1997–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Early career S&E doctorate holders employed in academia by Carnegie institution type, years since doctorate, and type of position
Figure 5-21	Early career S&E doctorate holders employed in full-time faculty positions with federal support, by field: 1991 and 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Early career S&E doctorate holders employed in full-time faculty positions with federal support, by field
Table 5-21	NIH and NSF research grant applications and funding success rates: 2001–16	National Institutes of Health	NIH Research Grant Data	NIH research grant applications and funding success rates
Table 5-21		National Science Foundation, Office of Budget, Finance, and Award Management	NSF Research Grant Data	NSF research grant applications and funding success rates
App. Table 5-21	S&E doctorate holders employed in academia with federal support, by degree field, research activity, and type of position: 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Academic S&E doctorate holders with federal support by degree field, research activity, and type of position
Figure 5-22	S&E articles, by global share of selected region, country, or economy: 2006–16	Elsevier	Scopus	All S&E articles by region, country, or economy
Table 5-22	S&E articles in all fields, by country or economy: 2006 and 2016	Elsevier	Scopus	All S&E articles by region, country, or economy
App. Table 5-22	S&E doctorate holders and full-time faculty with federal support, by degree field and Carnegie classification of employer: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders and full-time faculty with federal support by degree field and Carnegie classification of employer
Figure 5-23	U.S. academic and non-academic S&E articles: 2003-16	Elsevier	Scopus	U.S. S&E articles by field and sector
Table 5-23	S&E research portfolios of selected region, country, or economy, by field: 2016	Elsevier	Scopus	All S&E articles by region, country, or economy
				S&E articles in agricultural sciences by region, country, or economy
				S&E articles in astronomy by region, country, or economy
				S&E articles in biological sciences by region, country, or economy
				S&E articles in chemistry by region, country, or economy
				S&E articles in computer sciences by region, country, or economy
				S&E articles in engineering by region, country, or economy
				S&E articles in geosciences by region, country, or economy
				S&E articles in mathematics by region, country, or economy
				S&E articles in medical sciences by region, country, or economy
				S&E articles in other life sciences by region, country, or economy
				S&E articles in physics by region, country, or economy
				S&E articles in psychology by region, country, or economy
				S&E articles in social sciences by region, country, or economy
App. Table 5-23	S&E doctorate holders with federal support, by Carnegie classification of institution, race and ethnicity, and sex: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	S&E doctorate holders with federal support by Carnegie classification of institution, race and ethnicity, and gender
Figure 5-24	Share of world articles in all fields with authors from multiple institutions, domestic-only institutions, and international coauthorship: 2006 and 2016	Elsevier	Scopus	Share of world articles in all fields with authors from multiple institutions, domestic-only institutions, and international coauthorship
Table 5-24	Share of U.S. S&E articles, by sector and field: 2016	Elsevier	Scopus	U.S. S&E articles by field and sector
App. Table 5-24	Early career S&E doctorate holders employed in academia with federal support, by degree field, years since doctorate, and type of position: 1973–2015	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Doctorate Recipients	Early career S&E doctorate holders employed in academia with federal support by degree field, years since doctorate, and type of position
Figure 5-25	Share of world S&E articles with international collaboration, by S&E field: 2006 and 2016	Elsevier	Scopus	Share of world S&E articles with international collaboration, by S&E field
Table 5-25	Shares of U.S. sector publications coauthored with other U.S. sectors and foreign institutions: 2006 and 2016	Elsevier	Scopus	U.S. sector publications coauthored with other U.S. sectors and foreign institutions
App. Table 5-25	Fields and subfields of S&E publications data	National Science Foundation, National Center for Science and Engineering Statistics	Integrated Science and Engineering Resources Data System (WebCASPAR)	Fields and subfields of S&E publications data
Figure 5-26	Share of S&E articles internationally coauthored, by selected region, country, or economy: 2006 and 2016	Elsevier	Scopus	S&E articles in all fields by coauthorship attribute and selected region, country, or economy
Table 5-26	International coauthorship of S&E articles with the United States, by selected country or economy: 2016	Elsevier	Scopus	International coauthorship of S&E articles with the United States, by selected country or economy
App. Table 5-26	Regions, countries, or economies in S&E publications data	Elsevier	Scopus	Regions, countries, or economies in S&E publications data (Scopus)
Figure 5-27	Share of citations to selected region, country, or economy that are received from authors abroad: 1996–2014	Elsevier	Scopus	Citations from international S&E publications by region, country, or economy
Table 5-27	Index of international collaboration on S&E articles, by selected country or economy pair: 2006 and 2016	Elsevier	Scopus	Indexes of internationally coauthored S&E publications by selected region, country, or economy pairs
App. Table 5-27	S&E articles in all fields combined, by region, country, or economy: 2003–16	Elsevier	Scopus	All S&E articles by region, country, or economy
Figure 5-28	Average relative citations, by region, country, or economy: 1996–2014	Elsevier	Scopus	Average of relative citations in the Scopus database by region, country, or economy
Table 5-28	Relative citation index, by selected region, country, or economic pair: 2014	Elsevier	Scopus	Relative citation index by selected country pair
App. Table 5-28	S&E articles in agricultural sciences, by region, country, or economy: 2003–16	Elsevier	Scopus	S&E articles in agricultural sciences by region, country, or economy
Figure 5-29	Average relative citations for the United States, by S&E field: 2004 and 2014	Elsevier	Scopus	Average of relative citations for the United States, by scientific field
App. Table 5-29	S&E articles in astronomy, by region, country, or economy: 2003-16	Elsevier	Scopus	S&E articles in astronomy by region, country, or economy
Figure 5-30	Share of S&E publications in the top 1% of most cited publications, by selected region, country, or economy: 2004–14	Elsevier	Scopus	Share of publications in top 1% most-cited articles in the Scopus database by region, country, or economy
App. Table 5-30	S&E articles in biological sciences, by region, country, or economy: 2003–16	Elsevier	Scopus	S&E articles in biological sciences by region, country, or economy
Figure 5-31	S&E publication output in the top 1% of cited publications, by selected region, country, or economy: 2004–14	Elsevier	Scopus	Share of U.S., EU, and selected European countries S&E articles that are in the world’s top 1% of cited articles
App. Table 5-31	S&E articles in chemistry, by region, country, or economy: 2003-16	Elsevier	Scopus	S&E articles in chemistry by region, country, or economy
Figure 5-32	Average relative citations for U.S. S&E articles, by sector: 2004-14	Elsevier	Scopus	Average of relative citations of U.S. S&E articles by sector
App. Table 5-32	S&E articles in computer sciences, by region, country, or economy: 2003–2016	Elsevier	Scopus	S&E articles in computer sciences by region, country, or economy
App. Table 5-33	S&E articles in engineering, by region, country, or economy: 2003–2016	Elsevier	Scopus	S&E articles in engineering by region, country, or economy
App. Table 5-34	S&E articles in geosciences, by region, country, or economy: 2003–16	Elsevier	Scopus	S&E articles in geosciences by region, country, or economy
App. Table 5-35	S&E articles in mathematics, by region, country, or economy: 2003-16	Elsevier	Scopus	S&E articles in mathematics by region, country, or economy
App. Table 5-36	S&E articles in medical sciences, by region, country, or economy: 2003-16	Elsevier	Scopus	S&E articles in medical sciences by region, country, or economy
App. Table 5-37	S&E articles in other life sciences, by region, country, or economy: 2003-16	Elsevier	Scopus	S&E articles in other life sciences by region, country, or economy
App. Table 5-38	S&E articles in physics, by region, country, or economy: 2003-16	Elsevier	Scopus	S&E articles in physics by region, country, or economy
App. Table 5-39	S&E articles in psychology, by region, country, or economy: 2003–16	Elsevier	Scopus	S&E articles in psychology by region, country, or economy
App. Table 5-40	S&E articles in social sciences, by region, country, or economy: 2003-16	Elsevier	Scopus	S&E articles in social sciences by region, country, or economy
App. Table 5-41	U.S. S&E articles, by field and sector: 2003-16	Elsevier	Scopus	U.S. S&E articles by field and sector
App. Table 5-42	S&E articles in all fields combined, by coauthorship attribute and selected region, country, or economy: 2003-16	Elsevier	Scopus	S&E articles by coauthorship attribute and selected region, country, or economy
App. Table 5-43	Indexes of internationally coauthored S&E publications, by selected region, country, or economy pairs: 2006 and 2016	Elsevier	Scopus	Indexes of internationally coauthored S&E publications by selected region, country, or economy pairs
App. Table 5-44	Internationally coauthored S&E publications, by selected region, country, or economy pairs: 2003 and 2016	Elsevier	Scopus	Internationally coauthored S&E publications by selected region, country, or economy pairs
App. Table 5-45	U.S. sector publications coauthored with other U.S. sectors and foreign institutions: 2003 and 2016	Elsevier	Scopus	U.S. sector publications coauthored with other U.S. sectors and foreign institutions
App. Table 5-46	U.S. S&E articles, by field and coauthorship attribute: 2003-16	Elsevier	Scopus	U.S. S&E articles, by field and coauthorship attribute
App. Table 5-47	Citations from international S&E publications, by region, country, or economy: 1996-2014	Elsevier	Scopus	Citations from international S&E publications by region, country, or economy
App. Table 5-48	Share of S&E articles, by field, citation percentile, and country or economy of institutional author: 2004 and 2014	Elsevier	Scopus	Share of S&E articles by field, citation percentile, and country or economy of institutional author
App. Table 5-49	Average relative citations for the United States, by scientific field: 1996–2014	Elsevier	Scopus	Average of relative citations for the United States, by scientific field
App. Table 5-50	Average relative citations in the Scopus database, by region, country, or economy: 1996–2014	Elsevier	Scopus	Average of relative citations in the Scopus database by region, country, or economy
App. Table 5-51	Share of S&E publications in the top 1% of most-cited articles in the Scopus database, by region, country, or economy: 1996–2014	Elsevier	Scopus	Share of publications in top 1% most-cited articles in the Scopus database by region, country, or economy
Figure 5-A	Share of publications available in publisher-provided open access and total open access: 2006-15	1science	1science Open Access Tabulations	Share of publications available in publisher-provided OA and total OA
Table 5-A	EPSCoR and EPSCoR-like program budgets, by agency: FYs 2002–16	National Science Foundation, Office of Integrative Activities	Federal Agency EPSCoR Funding Data	EPSCoR and EPSCoR-like program budgets by agency
Figure 5-B	Annual percentage of U.S. publications available in publisher-provided open access and total open access: 2006-15	1science	1science Open Access Tabulations	Annual percentage of U.S. publications available in publisher-provided OA and total OA
Table 5-B	Foreign-trained S&E doctorate holders employed in academia, by degree field and sex: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Foreign-trained S&E doctorate holders employed in academia by degree field and sex
Figure 5-C	Percentage of publications available in publisher-provided open access and total open access, by research domain: 2006-15	1science	1science Open Access Tabulations	Percentage of publications available in publisher-provided OA and total OA, by research domain
Table 5-C	Foreign-trained S&E doctorate holders employed in academia, by research and teaching focus: 2015	National Science Foundation, National Center for Science and Engineering Statistics	National Survey of College Graduates	Foreign-trained SEH doctorate holders employed in academia by research and teaching focus
Figure 5-D	Filtered and unfiltered publications in Scopus, by year: 2006-16	Elsevier	Scopus	Filtered and unfiltered publications in Scopus
Table 5-D	Number of titles and publications filtered from the Scopus database	Elsevier	Scopus	Number of titles and publications filtered
Figure 5-E	Filtered and unfiltered publications in Scopus, by region, country, or economy: 2006-16	Elsevier	Scopus	Filtered and unfiltered publications in Scopus
Figure 5-F	Filtered and unfiltered publications in Scopus, by WebCASPAR field: 2006–16	Elsevier	Scopus	Filtered and unfiltered publications in Scopus
Figure 5-G	Trends in the proportion of female authors of S&E publications in Scopus: 2006–15	Elsevier	Scopus	Proportion of female authors of S&E publications in Scopus
Figure 5-H	Proportion of female authors of S&E publications, by field: 2006–15	Elsevier	Scopus	Proportion of female authors of S&E publications in Scopus
Figure 5-I	Proportion of female authors of S&E publications, by country: 2006–15	Elsevier	Scopus	Proportion of female authors of S&E publications in Scopus

Chapter 6. Industry, Technology, and the Global Marketplace

Chapter 7. Science and Technology: Public Attitudes and Understanding

Graphic	Title	Provider	Product	Source
Figure 7-1	Key science and engineering knowledge and attitude indicators: 1981–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Key science and engineering knowledge and attitude indicators: 1981–2001
		NORC at the University of Chicago	General Social Survey	Key science and engineering knowledge and attitude indicators: 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Key science and engineering knowledge and attitude indicators: 2004
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	China Research Institute for Science Popularization	Chinese National Survey of Public Scientific Literacy	Factual knowledge questions - China
		Council of Canadian Academies	Science Culture: Where Canada stands(2014)	Factual knowledge questions - Canada
		European Comission	Eurobarometer	Factual knowledge questions - European Union
		Israeli Ministry of Science Technology and Space, Geocartography Knowledge Group	Perceptions and attitudes of the Israeli public about science, technology and space	Factual knowledge questions - Israel
		Korea Science Foundation	Survey of Public Attitudes Towards and Understanding of Science and Technology (S. Korea)	Factual knowledge questions - South Korea
		Malaysian Science and Technology Information Centre	Public Awareness of Science, Technology And Innovation (STI) - Malaysia	Factual knowledge questions - Malaysia
		National Council of Applied Economic Research	India Science Report	Factual knowledge questions - India
		National Institute of Science and Technology Policy (Japan)	Survey of Public Attitudes Toward and Understanding of Science and Technology in Japan	Factual knowledge questions - Japan
		National Research University Higher School of Economics (Russia)	Russian Public Opinion of the Knowledge Economy: Science, Innovation, Information Technology, and Education as Drivers of Economic Growth and Quality of Life	Factual knowledge questions - Russia
		NORC at the University of Chicago	General Social Survey	Correct answers to factual knowledge questions in physical and biological sciences: 2016
		University of Zurich, Institute of Mass Communication and Media Research	Science Barometer Switzerland	Factual knowledge questions - Switzerland
App. Table 7-1	Public interest in selected issues: 1979-2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public interest in selected issues: 1979-2001
App. Table 7-1	Public interest in selected issues: 1979-2016	NORC at the University of Chicago	General Social Survey	Public interest in selected issues: 2008–2016
Figure 7-2	Key science and engineering indicators, by selected respondent education, sex, and age: 2016	NORC at the University of Chicago	General Social Survey	Key science and engineering indicators: 2016
Table 7-2	Correct answers to scientific process questions: Selected years, 1999–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Correct answers to scientific process questions: 1999–2001
		NORC at the University of Chicago	General Social Survey	Correct answers to scientific process questions: 2006–2016
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Correct answers to scientific process questions, 2004
App. Table 7-2	Public interest in selected issues, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public interest in selected issues: 2016
Figure 7-3	Public interest in selected issues: 2016	NORC at the University of Chicago	General Social Survey	Public interest in selected issues: 2016
App. Table 7-3	Primary source of information about current news events, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Primary source of information about current news events: 2016
Figure 7-4	Public interest in selected science-related issues: 1981–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public interest in science-related issues, 1981-2001
Figure 7-4		NORC at the University of Chicago	General Social Survey	Public interest in science-related issues: 2008–16
App. Table 7-4	Primary source of information about science and technology, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Primary source of information about science and technology: 2016
Figure 7-5	Primary source respondents used to learn about current news events, science and technology, and specific scientific issues: 2016	NORC at the University of Chicago	General Social Survey	Primary source of information about current news events: 2016
				Primary source of information about science and technology: 2016
				Primary source respondents used to learn about specific scientific issues: 2016
App. Table 7-5	Primary source respondents used to learn about specific scientific issues, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Primary source respondents used to learn about specific scientific issues: 2016
Figure 7-6	Primary source respondents used to learn about current news events, science and technology, and specific scientific issues: 2001–16	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Primary source respondents used to learn about current news events: 2001
				Primary source respondents used to learn about science and technology: 2001
				Primary source respondents used to learn about specific scientific issues: 2001
		NORC at the University of Chicago	General Social Survey	Primary source respondents used to learn about current news events: 2006–16
				Primary source respondents used to learn about science and technology: 2006–16
				Primary source respondents used to learn about specific scientific issues: 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Primary source respondents used to learn about current news events: 2004
				Primary source respondents used to learn about science and technology: 2004
				Primary source respondents used to learn about specific scientific issues: 2004
App. Table 7-6	Public interest in selected issues: 1981–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public interest in selected issues: 1981–2001
App. Table 7-6	Public interest in selected issues: 1981–2016	NORC at the University of Chicago	General Social Survey	Public interest in selected issues: 2008–2016
Figure 7-7	Mean number of correct answers to trend factual knowledge of science scale: 1992–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Correct answers to trend factual knowledge of science questions: 1992–2001
Figure 7-7		NORC at the University of Chicago	General Social Survey	Correct answers to trend factual knowledge of science questions: 2006–16
App. Table 7-7	Visitors to informal science institutions: 2016	NORC at the University of Chicago	General Social Survey	Visitors to informal science institutions: 2016
Figure 7-8	Correct answers to trend factual knowledge of science scale, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Correct answers to factual knowledge questions in physical and biological sciences: 2016
App. Table 7-8	Correct answers to trend factual knowledge of science questions, by respondent characteristic: 1992-2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Correct answers to factual knowledge questions, by respondent characteristic, 1992-2001
App. Table 7-8		NORC at the University of Chicago	General Social Survey	Correct answers to trend factual knowledge of science questions: 2006–16
Figure 7-9	Understanding scientific inquiry, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Understanding scientific inquiry: 2016
App. Table 7-9	Correct answers to factual knowledge questions in physical and biological sciences: 1985-2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Correct answers to physical and biological science questions, 1985-2001
		NORC at the University of Chicago	General Social Survey	Correct answers to factual knowledge questions in physical and biological sciences: 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Correct answers to physical and biological science questions, 2004
Figure 7-10	Public assessment of scientific research: 1979–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of scientific research: 1979-2001
		NORC at the University of Chicago	General Social Survey	Public assessment of benefits and harms of scientific research: 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Public assessment of scientific research: 2004
App. Table 7-10	Correct answers to factual knowledge questions in physical and biological sciences, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Correct answers to factual knowledge questions in physical and biological sciences: 2016
Figure 7-11	Public opinion on whether government should fund basic scientific research: 1985–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public opinion of using government funds for scientific research: 1985-2001
		NORC at the University of Chicago	General Social Survey	Public opinion on whether federal government should fund basic scientific research: 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Public opinion of using government funds for scientific research: 2004
App. Table 7-11	Correct answers to scientific process questions, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Correct answers to scientific process questions: 2016
Figure 7-12	Public assessment of amount of spending for scientific research: 1981–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of amount of spending for scientific research: 1981–2001
		NORC at the University of Chicago	General Social Survey	Public assessment of amount of spending for scientific research: 2006–2016
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Public assessment of amount of spending for scientific research: 2004
App. Table 7-12	Public assessment of astrology, by respondent characteristic: 1979-2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of astrology: 1979–2001
		NORC at the University of Chicago	General Social Survey	Public assessment of astrology: 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Public assessment of astrology: 2004
Figure 7-13	Public attitudes toward spending in various policy areas: 2016	NORC at the University of Chicago	General Social Survey	Public assessment of spending, by policy area: 2016
App. Table 7-13	Understanding of the term "scientific study," by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Understanding of the term "scientific study": 2016
Figure 7-14	Public confidence in institutional leaders, by type of institution: 2016	NORC at the University of Chicago	General Social Survey	Public confidence in institutional leaders: 2016
App. Table 7-14	Understanding of the term "scientific study": 1979–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Understanding of the term "scientific study": 1979–2001
		NORC at the University of Chicago	General Social Survey	Understanding of the term "scientific study": 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Understanding of the term "scientific study": 2004
Figure 7-15	Public confidence in institutional leaders, by selected institution: 1973–2016	NORC at the University of Chicago	General Social Survey	Public confidence in institutional leaders: 1973–2016
App. Table 7-15	Public assessment of benefits and harms of scientific research, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public assessment of benefits and harms of scientific research: 2016
Figure 7-16	Public views about scientists: selected years, 1983–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public perception of scientists: 1983, 1985, 2001
Figure 7-16	Public views about scientists: selected years, 1983–2016	NORC at the University of Chicago	General Social Survey	Public perception of scientists: 2012, 2016
App. Table 7-16	Public assessment of benefits and harms of scientific research: 1979-2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of benefits and harms of scientific research: 1979–2001
		NORC at the University of Chicago	General Social Survey	Public assessment of benefits and harms of scientific research: 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Public assessment of benefits and harms of scientific research: 2004
Figure 7-17	Concern about specific environmental issues: 1989–2017	Gallup	Gallup, Climate Change: Environment	Gallup climate change/environment survey responses
App. Table 7-17	Public assessment of whether science and technology result in more opportunities for the next generation, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public assessment of whether science and technology result in more opportunities for next generation: 2016
Figure 7-18	Perceived danger of specific health and environmental issues: selected years, 1993–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Perceived danger of specific health and environmental issues: 1993, 1994, 2000
Figure 7-18		NORC at the University of Chicago	General Social Survey	Perceived danger of specific health and environmental issues: 2010, 2016
App. Table 7-18	Public assessment of whether science and technology result in more opportunities for the next generation: 1985-2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of whether science and technology results in more opportunities: 1985-2001
		NORC at the University of Chicago	General Social Survey	Public assessment of whether science and technology result in more opportunities for next generation: 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Public assessment of whether science and technology results in more opportunities: 2004
Figure 7-19	Belief in global warming and confidence in that belief: 1989–2017	Center for Climate Change Communication	Climate Change in the American Mind	How sure respondent is that global warming is happening
				How sure respondent is that global warming is not happening
				Respondent agrees that more than 90% of climate scientists think that human-caused global warming is happening
				Worry about global warming
		Gallup	Gallup Social Series: Environment	How well respondent understands global warming
				Respondent agrees that most scientists believe that global warming is occurring
				Worry about global warming or climate change
		Muhlenberg College and the University of Michigan	National Surveys on Energy and Environment	Concern about global warming
		Pew Research Center	Pew Research Center, General Public Science Survey	Solid evidence Earth is warming due to human causes
App. Table 7-19	Public assessment of whether science makes life change too fast, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public assessment of whether science makes life change too fast: 2016
Figure 7-20	Views on nuclear energy: 1994–2017	Gallup	Gallup Social Series: Environment	Favor use of nuclear energy
		Gallup	Gallup Social Series: Environment	Opinion of expanding nuclear energy
		Pew Research Center	Pew Research Center, December 2014 Political Survey	Favor promoting nuclear energy
		Pew Research Center	Pew Research Center, General Public Science Survey	Favor building more nuclear power plants
App. Table 7-20	Public assessment of whether science makes life change too fast: 1979-2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of whether science makes life change too fast: 1979-2001
		NORC at the University of Chicago	General Social Survey	Public assessment of whether science makes life change too fast: 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Public assessment of whether science makes life change too fast: 2004
Figure 7-21	Views on nanotechnology: 2008, 2010, 2016	NORC at the University of Chicago	General Social Survey	Views on nanotechnology: 2008–2016
App. Table 7-21	Public opinion on whether the federal government should fund basic scientific research, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public opinion on whether federal government should fund basic scientific research: 2016
App. Table 7-22	Public opinion on whether the federal government should fund basic research: 1985-2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public opinion on whether the government should fund basic research: 1985-2001
		NORC at the University of Chicago	General Social Survey	Public opinion on whether federal government should fund basic scientific research: 2006–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Public opinion on whether the government should fund basic research; 2004
App. Table 7-23	Public assessment of spending, by policy area: 1983–2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of spending, by policy area: 1983–2001
		NORC at the University of Chicago	General Social Survey	Public assessment of spending, by policy area: 2002–16
		University of Michigan Institute for Social Research	Survey of Consumer Attitudes and Behavior	Public assessment of spending, by policy area: 2004
App. Table 7-24	Public assessment of spending on science, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public assessment of spending on science: 2016
App. Table 7-25	Public assessment of spending on health, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public assessment of spending on health: 2016
App. Table 7-26	Public assessment of spending on the environment, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public assessment of spending on the environment: 2016
App. Table 7-27	Public assessment of spending on space, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public assessment of spending on space: 2016
App. Table 7-28	Public confidence in institutional leaders, by type of institution: 1973-2016	NORC at the University of Chicago	General Social Survey	Public confidence in institutional leaders: 1973–2016
App. Table 7-29	Public confidence in science leaders, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public confidence in science leaders: 2016
App. Table 7-30	Public perception of scientists: 1983,1985, 2001, 2012, 2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public perception of scientists: 1983, 1985, 2001
App. Table 7-30		NORC at the University of Chicago	General Social Survey	Public perception of scientists: 2012, 2016
App. Table 7-31	Public perception of scientists, by respondent characteristic: 2016	NORC at the University of Chicago	General Social Survey	Public perception of scientists: 2016
App. Table 7-32	Public assessment of the danger of river, lake, and stream pollution to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of danger of river, lake, and stream pollution to the environment: 1993, 1994
App. Table 7-32		NORC at the University of Chicago	General Social Survey	Public assessment of danger of river, lake, and stream pollution to the environment: 2000 - 16
App. Table 7-33	Public assessment of the danger of air pollution from industry to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of danger of air pollution from industry to the environment: 1993, 1994
App. Table 7-33		NORC at the University of Chicago	General Social Survey	Public assessment of danger of air pollution from industry to the environment: 2000 - 16
App. Table 7-34	Public assessment of the danger of climate change to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of danger of climate change to the environment: 1993-94
App. Table 7-34		NORC at the University of Chicago	General Social Survey	Public assessment of danger of climate change to the environment: 2000–16
App. Table 7-35	Public assessment of the danger of nuclear power stations to the environment, by respondent characteristic: 1993, 1994, 2010, 2016	National Science Foundation, National Center for Science and Engineering Statistics	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of danger of nuclear power stations to the environment: 1993-94
App. Table 7-35		NORC at the University of Chicago	General Social Survey	Public assessment of danger of nuclear power stations to the environment: 2010–16
App. Table 7-36	Public assessment of the danger of modifying genes of crops to the environment, by respondent characteristic: 2000, 2010, 2016	NORC at the University of Chicago	General Social Survey	Public assessment of danger of modifying genes of crops to the environment: 2000–16
App. Table 7-37	Public assessment of the benefits and harms of nanotechnology, by respondent characteristic: 2006, 2008, 2010, 2016	NORC at the University of Chicago	General Social Survey	Public assessment of benefits and harms of nanotechnology: 2006–16
Figure 7-A	Correct answers to factual knowledge questions, by respondent characteristic: 2006–16 (combined)	NORC at the University of Chicago	General Social Survey	Correct answers to factual knowledge questions in physical and biological sciences: 2006–16

Chapter 8. Invention, Knowledge Transfer, and Innovation

Graphic	Title	Provider	Product	Source
Figure 8-1	For companies that performed or funded R&D, shares rating intellectual property as being very or somewhat important: 2011	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	Importance of copyrights for companies with and without R&D activity, by industry and company size
				Importance of design patents for companies with and without R&D activity, by industry and company size
				Importance of mask works for companies with and without R&D activity, by industry and company size
				Importance of trade secrets for companies with and without R&D activity, by industry and company size
				Importance of trademarks for companies with and without R&D activity, by industry and company size
				Importance of utility patents for companies with and without R&D activity, by industry and company size
Table 8-1	U.S. university patent awards, by technology area: 2002 and 2016	US Patent and Trademark Office	PatentsView	U.S. university patent awards, by technology area
App. Table 8-1	USPTO patents granted, by sector: 2002–16	US Patent and Trademark Office	PatentsView	USPTO patents granted, by sector
Figure 8-2	USPTO patents granted, by selected U.S. industry: 2015	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	USPTO patents granted, by selected U.S. industry
Table 8-2	Selected technology areas of USPTO patents	US Patent and Trademark Office	PatentsView	Technology areas of USPTO patents
App. Table 8-2	U.S. university patent awards, by technology area: 1996–2016	US Patent and Trademark Office	PatentsView	U.S. university patent awards, by technology area
Figure 8-3	USPTO patents granted to U.S. and non-U.S. academic institutions: 1996–2016	US Patent and Trademark Office	PatentsView	USPTO patents granted to U.S. and non-U.S. academic institutions
Table 8-3	Federal laboratory technology transfer activity indicators, by selected agencies: FYs 2006, 2009, 2012, 2014	National Institute of Standards and Technology	Federal Laboratory Technology Transfer: Summary Report to the President and the Congress	Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2003-2007
				Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2008-2012
				Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2010-2014
App. Table 8-3	Regions, countries, or economies in USPTO patent data	US Patent and Trademark Office	PatentsView	Regions, countries, or economies in USPTO patent data
Figure 8-4	U.S. academic patents, by selected technology area, 5-year averages: 2002–16	US Patent and Trademark Office	PatentsView	U.S. academic patents, by technology area
Table 8-4	Invention disclosures and patenting, by selected U.S. agencies with federal laboratories: FYs 2006–14	National Institute of Standards and Technology	Federal Laboratory Technology Transfer: Summary Report to the President and the Congress	Invention disclosures and patenting, by selected U.S. agencies with federal laboratories
App. Table 8-4	USPTO patents granted, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted, by region, country, or economy
Figure 8-5	USPTO patents granted, by selected region, country, or economy of inventor: 2006–16	US Patent and Trademark Office	PatentsView	USPTO patents granted, by selected region/country/economy of inventor
Table 8-5	U.S. business-sector publications with other U.S. sectors and foreign institutions: 2016	Elsevier	Scopus	U.S. sector publications coauthored with other U.S. sectors and foreign institutions
App. Table 8-5	USPTO patents granted in computer technology, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in computer technology, by region, country, or economy
Figure 8-6	USPTO patents granted in selected broad technology categories: 2006 and 2016	US Patent and Trademark Office	PatentsView	USPTO patents granted in selected technology categories
Table 8-6	U.S. utility patents citing S&E literature, by patent assignee sector, article author sector, and patent issue year: 2013–16	Elsevier	Scopus	S&E articles
Table 8-6		US Patent and Trademark Office	PatentsView	USPTO utility patents
App. Table 8-6	USPTO patents granted in semiconductors, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in semiconductors, by region, country, or economy
Figure 8-7	USPTO patents granted, by selected country or economy of inventor: 2006–16	US Patent and Trademark Office	PatentsView	USPTO patents granted, by selected region/country/economy of inventor
Table 8-7	SBIR and STTR awards funding, by type of award: Selected years, FYs 1983–2015	Small Business Administration	SBIR/STTR Annual Reports	SBIR and STTR awards, by type of award
App. Table 8-7	USPTO patents granted in telecommunications, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in telecommunications, by region, country, or economy
Figure 8-8	Patent activity index for selected technologies for the United States, EU, and Japan: 2014–16	US Patent and Trademark Office	PatentsView	Patent activity indexes for selected technologies for selected economies
Table 8-8	Examples of federal policies and programs supporting early stage technology development and innovation	National Aeronautics and Space Administration	National Aeronautics and Space Administration technology development programs	NASA technology development program summary
		National Institutes of Health	National Institutes of Health technology development programs	NIH technology development program summary
		National Science Foundation, Directorate for Engineering	National Science Foundation technology development programs	NSF technology development program summary
		U.S. Department of Agriculture	Department of Agriculture technology development programs	USDA technology development program summary
		U.S. Department of Defense	Department of Defense technology development programs	DOD technology development program summary
		U.S. Department of Transportation	Department of Transportation technology development programs	DOT technology development program summary
App. Table 8-8	USPTO patents granted in digital communication, by region, country, or economy: 2000–2016	US Patent and Trademark Office	PatentsView	USPTO patents granted in digital communication, by region, country, or economy
Figure 8-9	Patent activity index of selected technologies for South Korea, Taiwan, and China: 2014–16	US Patent and Trademark Office	PatentsView	Patent activity indexes for selected technologies for selected economies
Table 8-9	U.S. companies introducing new or significantly improved products or processes, by company size and industry sector: 2013–15	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	U.S. companies introducing new or significantly improved products or processes, by company size and industry sector
App. Table 8-9	USPTO patents granted in basic communication processes, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in basic communication processes, by region, country, or economy
Figure 8-10	U.S. university patenting activities: 2003–15	Association of University Technology Managers	AUTM Licensing Activity Survey	U.S. university patenting activities
Table 8-10	U.S. companies introducing new or significantly improved products or processes, by industry sector and industry proportions: 2013–15	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	U.S. companies introducing new or significantly improved products or processes, by industry sector and industry proportions
App. Table 8-10	USPTO patents granted in IT methods for management, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in IT methods for management, by region, country, or economy
Figure 8-11	Citations of U.S. S&E articles in U.S. patents, by selected S&E article field: 2016	Elsevier	Scopus	U.S. S&E articles
Figure 8-11		US Patent and Trademark Office	PatentsView	U.S. patents
Table 8-11	International comparison of innovation rate, product and process, by country and firm size: 2012–14	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	Innovation rates for U.S. manufacturing and service industries, by type
Table 8-11		Organization for Economic Cooperation and Development	OECD Science, Technology and Industry Scoreboard	Innovation rates for manufacturing and service industries, by country and type
App. Table 8-11	USPTO patents granted in medical technology, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in medical technology, by region, country, or economy
Figure 8-12	Citation of U.S. S&E articles in USPTO patents, by selected S&E field and article author sector: 2016	Elsevier	Scopus	U.S. S&E articles by field and sector
Figure 8-12		US Patent and Trademark Office	PatentsView	USPTO patents granted, by sector
App. Table 8-12	USPTO patents granted in biotechnology, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in biotechnology, by region, country, or economy
Figure 8-13	Exports of intellectual property (charges for their use), by selected region, country, or economy: 2008–16	World Trade Organization	International Trade and Tariff Data	Exports of royalties and fees, by selected region, country, or economy
App. Table 8-13	USPTO patents granted in pharmaceuticals, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in pharmaceuticals, by region, country, or economy
Figure 8-14	Private investment in intangibles, by type, for the manufacturing sector: 1987–2014	Bureau of Labor Statistics	Multifactor Productivity Measures for Major Sectors and Manufacturing	Private investment in intellectual property products, by type, for the manufacturing sector
App. Table 8-14	USPTO patents granted in basic material chemistry, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in basic material chemistry, by region, country, or economy
Figure 8-15	Private investment in intangibles, by type, for the nonmanufacturing sector: 1987–2015	Bureau of Labor Statistics	Multifactor Productivity Measures for Major Sectors and Manufacturing	Private investment in intellectual property products, by type, for the nonmanufacturing sector
App. Table 8-15	USPTO patents granted in organic chemistry, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in organic chemistry, by region, country, or economy
Figure 8-16	Global venture capital investment, by financing stage: 2003–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	Global venture capital investment, by financing stage
App. Table 8-16	USPTO patents granted in macromolecular chemistry, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in macromolecular chemistry, by region, country, or economy
Figure 8-17	Seed-stage venture capital investment, by selected country or economy: 2006–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	Seed-stage venture capital investment, by selected country or economy
App. Table 8-17	USPTO patents granted in chemical engineering, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in chemical engineering, by region, country, or economy
Figure 8-18	Global seed-stage venture capital investment: 2006–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	Global seed-stage venture capital investment
App. Table 8-18	USPTO patents granted in measurement, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in measurement, by region, country, or economy
Figure 8-19	U.S. seed-stage venture capital investment, by selected industry: 2011–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	U.S. seed-stage venture capital investment, by selected industry vertical
App. Table 8-19	USPTO patents granted in optics, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in optics, by region, country, or economy
Figure 8-20	U.S. seed-stage venture capital investment, by selected industry: 2013 and 2016	PitchBook	Pitchbook Venture Capital and Private Equity Database	U.S. seed-stage venture capital investment, by selected industry vertical
App. Table 8-20	USPTO patents granted in analysis of biological materials, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in analysis of biological materials, by region, country, or economy
Figure 8-21	U.S. early and later-stage venture capital investment, by selected industry: 2013 and 2016	PitchBook	Pitchbook Venture Capital and Private Equity Database	U.S. early and later stage venture capital investment, by selected industry vertical
App. Table 8-21	USPTO patents granted in control, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in control, by region, country, or economy
Figure 8-22	Early and later-stage venture capital investment, by selected country or economy: 2006–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	Early and later stage venture capital investment, by selected country or economy
App. Table 8-22	USPTO patents granted in materials and metallurgy, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in materials and metallurgy, by region, country, or economy
Figure 8-23	Early and later-stage venture capital investment, by selected country: 2006–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	Early and later stage venture capital investment, by selected country or economy
App. Table 8-23	USPTO patents granted in microstructural and nanotechnology, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in microstructural and nanotechnology, by region, country, or economy
Figure 8-24	U.S. early and later-stage venture capital investment, by selected industry: 2011–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	U.S. early and later stage venture capital investment, by selected industry vertical
App. Table 8-24	USPTO patents granted in surface technology and coating, by region, country, or economy: 2000–16	US Patent and Trademark Office	PatentsView	USPTO patents granted in surface technology and coating, by region, country, or economy
Figure 8-25	China early and later-stage venture capital investment, by selected industry: 2011–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	China early and later stage venture capital investment, by selected industry vertical
App. Table 8-25	Patent activity indexes for selected technologies for selected economies: 2014–16	US Patent and Trademark Office	PatentsView	Patent activity indexes for selected technologies for selected economies
Figure 8-26	Share of U.S. manufacturing companies reporting product or process innovation, by selected industry: 2013–15	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	Share of U.S. manufacturing companies reporting innovation activities, by selected industry
App. Table 8-26	Academic patenting and licensing activities: 2001–15	Association of University Technology Managers	AUTM Licensing Activity Survey	Academic patenting and licensing activities
Figure 8-27	Share of U.S. nonmanufacturing companies reporting product or process innovation, by selected industry: 2013–15	National Science Foundation, National Center for Science and Engineering Statistics	Business Research and Development and Innovation Survey (BRDIS)	Share of U.S. nonmanufacturing companies reporting product or process innovation, by selected industry
App. Table 8-27	Federal technology transfer activity indicators for U.S. agencies with federal laboratories: FYs 2001–14	National Institute of Standards and Technology	Federal Laboratory Technology Transfer: Summary Report to the President and the Congress	Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 1999-2003
				Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2003-2007
				Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2008-2012
				Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2010-2014
Figure 8-28	Labor and multifactor productivity annual growth, multiyear averages, private nonfarm business sector: 1990–2016	Bureau of Labor Statistics	BLS Productivity Statistics	Productivity, output, and inputs in the private nonfarm business and private business sectors for selected periods
App. Table 8-28	Citation of S&E articles in USPTO patents, by cited field and cited country and sector: 2013–16	Elsevier	Scopus	S&E articles by field, country, and sector
App. Table 8-28		US Patent and Trademark Office	PatentsView	USPTO patents
Figure 8-29	Contributions to GDP growth, average: 2001-07 and 2009-15, selected OECD countries	Organization for Economic Cooperation and Development	OECD Compendium of Productivity Indicators	Contributions to GDP growth: Total economy, annual percentage point contribution
App. Table 8-29	Exports and imports of charges for the use of intellectual property, by selected region, country, or economy: 2008–16	World Trade Organization	International Trade and Tariff Data	Exports and imports of charges for the use of intellectual property, by selected region, country, or economy
Figure 8-30	Share of firms, job creation, and employment from firms 5 years old or younger: 1982–2015	U.S. Census Bureau	Business Dynamics Statistics	Share of firms, job creation, and employment from firms 5 years old or younger
App. Table 8-30	Global venture capital investment, by selected financing stage and selected region, country, or economy: 2006–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	Global venture capital investment, by financing stage and selected region, country, or economy
App. Table 8-31	Definitions of industry or technologies of venture capital data	PitchBook	Pitchbook Venture Capital and Private Equity Database	Definitions of industry or technologies of venture capital data (Pitchbook)
App. Table 8-32	U.S. seed-stage venture capital investment, by industry: 2011–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	U.S. seed-stage venture capital investment, by industry or technology
App. Table 8-33	U.S. early and later-stage venture capital investment, by industry: 2011–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	U.S. early and later-stage venture capital investment, by industry or technology
App. Table 8-34	China early and later-stage venture capital investment, by industry: 2011–16	PitchBook	Pitchbook Venture Capital and Private Equity Database	China early and later-stage venture capital investment, by industry or technology
App. Table 8-35	SBIR and STTR awards, by type of award: FYs 1983–2015	Small Business Administration	SBIR/STTR Annual Reports	SBIR and STTR awards, by type of award
App. Table 8-36	SBIR award funding, by type of award and federal agency: FYs 1983–2015	Small Business Administration	SBIR/STTR Annual Reports	SBIR award funding, by type of award and federal agency
App. Table 8-37	STTR award funding, by type of award and federal agency: FYs 1995–2015	Small Business Administration	SBIR/STTR Annual Reports	STTR award funding, by type of award and federal agency
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	Centers for Disease Control and Prevention	Centers for Disease Control and Prevention technology development programs	CDC technology development program summary
		Economic Development Administration	Economic Development Administration technology development programs	EDA technology development program summary
		Environmental Protection Agency	Environmental Protection Agency technology development programs	EPA technology development program summary
		National Aeronautics and Space Administration	National Aeronautics and Space Administration technology development programs	NASA technology development program summary
		National Institute of Standards and Technology	National Institute of Standards and Technology technology development programs	NIST technology development program summary
		National Institutes of Health	National Institutes of Health technology development programs	NIH technology development program summary
		National Science Foundation, Directorate for Engineering	National Science Foundation technology development programs	NSF technology development program summary
		U.S. Department of Agriculture	Department of Agriculture technology development programs	USDA technology development program summary
		U.S. Department of Defense	Department of Defense technology development programs	DOD technology development program summary
		U.S. Department of Energy	Department of Energy technology development programs	DOE technology development program summary
		U.S. Department of Homeland Security	Department of Homeland Security technology development programs	DHS technology development program summary
		U.S. Department of Transportation	Department of Transportation technology development programs	DOT technology development program summary

1science

Graphic	Title	Product	Source
Figure 5-A	Share of publications available in publisher-provided open access and total open access: 2006-15	1science Open Access Tabulations	Share of publications available in publisher-provided OA and total OA
Figure 5-B	Annual percentage of U.S. publications available in publisher-provided open access and total open access: 2006-15	1science Open Access Tabulations	Annual percentage of U.S. publications available in publisher-provided OA and total OA
Figure 5-C	Percentage of publications available in publisher-provided open access and total open access, by research domain: 2006-15	1science Open Access Tabulations	Percentage of publications available in publisher-provided OA and total OA, by research domain

American College Testing (ACT)

Graphic	Title	Product	Source
Table 1-26	Chapter summary of U.S. performance on K–12 STEM indicators	The Condition of College and Career Readiness	The Condition of College and Career Readiness 2016
Figure 1-A	ACT-tested 2016 high school graduates meeting ACT college readiness benchmarks in mathematics and science	The Condition of College and Career Readiness	The Condition of College and Career Readiness 2016

American Society for Engineering Education

Graphic	Title	Product	Source
App. Table 2-17	Undergraduate enrollment in engineering and engineering technology programs: 2006–15	Engineering by the Numbers	Undergraduate enrollment in engineering

Association of University Technology Managers

Graphic	Title	Product	Source
Figure 8-10	U.S. university patenting activities: 2003–15	AUTM Licensing Activity Survey	U.S. university patenting activities
App. Table 8-26	Academic patenting and licensing activities: 2001–15	AUTM Licensing Activity Survey	Academic patenting and licensing activities

Bloomberg New Energy Finance

Graphic	Title	Product	Source
Figure 6-34	Private investment in sustainable energy technologies, by type of financing: 2006, 2010, and 2016	Bloomberg New Energy Finance Data	Private investment in sustainable energy technologies, by type of financing
Figure 6-36	Global generation capacity of sustainable energy, by source: 2006–16	Bloomberg New Energy Finance Data	Global generation capacity of sustainable energy, by source
Figure 6-37	Global venture capital and private equity investment in sustainable energy technologies, by selected region or country: 2006–16	Bloomberg New Energy Finance Data	Global venture capital and private equity investment in sustainable energy technologies, by selected region or country
Figure 6-38	Global venture capital and private equity investment in sustainable energy technologies, by selected technology: 2006–16	Bloomberg New Energy Finance Data	Global venture capital and private equity investment in sustainable energy technologies, by selected technology
Figure 6-39	U.S. venture capital and private equity investment in sustainable energy technologies, by selected technology: 2011–16	Bloomberg New Energy Finance Data	U.S. venture capital and private equity investment in sustainable energy technologies, by selected technology
Figure 6-40	Later-stage private investment in sustainable energy technologies, by selected region or country: 2006–16	Bloomberg New Energy Finance Data	Later-stage private investment in sustainable energy technologies, by selected region or country
Figure 6-41	Later-stage private investment in sustainable energy technologies, by selected technology: 2006–16	Bloomberg New Energy Finance Data	Later-stage private investment in sustainable energy technologies, by selected technology
Figure 6-42	Cumulative change in later-stage sustainable energy technologies private investment, by selected region or country and technology area: 2013–16	Bloomberg New Energy Finance Data	Cumulative change in later-stage sustainable energy technologies private investment, by selected region or country and technology area
Figure 6-43	Generation capacity in solar and wind by selected region or country: 2006–16	Bloomberg New Energy Finance Data	Generation capacity in solar and wind by selected region or country
App. Table 6-44	Later-stage sustainable energy investment in all technologies and solar, by region, country, or economy: 2006–16	Bloomberg New Energy Finance Data	Later-stage sustainable energy investment in all technologies, by region, country, or economy
App. Table 6-44		Bloomberg New Energy Finance Data	Later-stage sustainable energy investment in solar, by region, country, or economy
App. Table 6-45	Later-stage sustainable energy investment in wind and energy smart technologies, by region, country, or economy: 2004–16	Bloomberg New Energy Finance Data	Later-stage sustainable energy investment in energy smart technologies, by region, country, or economy
App. Table 6-45		Bloomberg New Energy Finance Data	Later-stage sustainable energy investment in wind, by region, country, or economy

Bureau of Economic Analysis

Graphic	Title	Product	Source
App. Table 4-1	U.S. gross domestic product, R&D, and ratio of R&D to gross domestic product (and components): 1953–2015	National Economic Accounts	Current dollar and real GDP
App. Table 4-10	U.S. R&D expenditures, by state, performing sector, and funding sector: 2015	Regional Economic Accounts	Gross domestic product by state, current dollars
App. Table 4-11	U.S. R&D and gross domestic product, by state: 2015	Regional Economic Accounts	Gross domestic product by state, current dollars
Table 4-13	R&D performed by majority-owned affiliates of foreign companies in the United States, by selected industry of affiliate and investor country: 2014	Survey of Foreign Direct Investment in the United States	R&D performed by majority-owned affiliates of foreign companies in the United States, by selected industry of affiliate and investor country
Table 4-14	R&D performed abroad by majority-owned foreign affiliates of U.S. parent companies, by selected industry of affiliate and host region, country, or economy: 2014	Survey of U.S. Direct Investment Abroad	Direct Investment and Multinational Enterprises (annual series)
App. Table 4-15	R&D performed by majority-owned affiliates of foreign companies in the United States, by region, country, or economy of ultimate beneficial owner: 1997–2014	Survey of Foreign Direct Investment in the United States	Direct Investment and Multinational Enteprises (annual series)
App. Table 4-16	R&D performed by majority-owned affiliates of foreign companies in the United States, by NAICS industry of affiliate: 2007–14	Survey of Foreign Direct Investment in the United States	Direct Investment and Multinational Enteprises (annual series)
App. Table 4-17	R&D performed abroad by majority-owned foreign affiliates of U.S. parent companies, by region, country, or economy: 1997–2014	Survey of U.S. Direct Investment Abroad	Direct Investment and Multinational Enterprises (annual series)
App. Table 4-18	R&D performed abroad by majority-owned foreign affiliates of U.S. parent companies, by selected NAICS industry of affiliate: 2009–14	Survey of U.S. Direct Investment Abroad	Direct Investment and Multinational Enterprises (annual series)
App. Table 4-19	R&D performed in the United States by U.S. multinational company parent companies, by NAICS industry: 2009–14	Survey of Foreign Direct Investment in the United States	Direct Investment and Multinational Enteprises (annual series)
Table 4-A	Top 10 states in U.S. R&D performance, by sector and intensity: 2015	Regional Economic Accounts	Gross domestic product by state, current dollars

Bureau of Labor Statistics

Graphic	Title	Product	Source
Figure 3-1	Employment in S&E occupations, by broad occupational category: 2015 and 2016	Occupational Employment Statistics (OES) Survey	OES National occupational employment and wage estimates
App. Table 3-2	Bureau of Labor Statistics projections of occupational employment: 2014–24	Employment Projections	Employment Projections program, special tabulations of 2014–24 Employment Projections.
Table 3-3	Measures and size of U.S. S&E workforce: 2015 and 2016	Occupational Employment Statistics (OES) Survey	OES National occupational employment and wage estimates
Table 3-8	Employment in S&E occupations, by major industry: May 2016	Occupational Employment Statistics (OES) Survey	OES May 2016 National Industry-Specific Estimates
Table 3-9	Metropolitan areas with largest proportion of workers in S&E occupations: May 2016	Occupational Employment Statistics (OES) Survey	OES May 2016 Metropolitan Area Employment Estimates
Table 3-13	Annual salaries in science, technology, and related occupations: May 2013–May 2016	Occupational Employment Statistics (OES) Survey	OES National occupational employment and wage estimates
Figure 3-A	Projected increases in employment for S&E and other selected occupations: 2014–24	Employment Projections	Employment Projections program, special tabulations of 2014–24 Employment Projections.
Table 3-A	Bureau of Labor Statistics projections of employment and job openings in S&E and other selected occupations: 2014–24	Employment Projections	Employment Projections program, special tabulations of 2014–24 Employment Projections.
Figure 3-B	Projected job openings in S&E and other selected occupations: 2014–24	Employment Projections	Employment Projections program, special tabulations of 2014–24 Employment Projections.
Figure 6-7	U.S. employment in commercial KI services: 2006–16	Current Employment Statistics Survey	U.S. employment in commercial KI services
Figure 6-12	U.S. employment in HT manufacturing industries: 2006–16	Current Employment Statistics Survey	U.S. employment in HT manufacturing industries
Figure 6-20	U.S. employment in MHT manufacturing industries: 2006–16	Current Employment Statistics Survey	U.S. employment in MHT manufacturing industries
Figure 8-14	Private investment in intangibles, by type, for the manufacturing sector: 1987–2014	Multifactor Productivity Measures for Major Sectors and Manufacturing	Private investment in intellectual property products, by type, for the manufacturing sector
Figure 8-15	Private investment in intangibles, by type, for the nonmanufacturing sector: 1987–2015	Multifactor Productivity Measures for Major Sectors and Manufacturing	Private investment in intellectual property products, by type, for the nonmanufacturing sector
Figure 8-28	Labor and multifactor productivity annual growth, multiyear averages, private nonfarm business sector: 1990–2016	BLS Productivity Statistics	Productivity, output, and inputs in the private nonfarm business and private business sectors for selected periods

Center for Climate Change Communication

Graphic	Title	Product	Source
Figure 7-19	Belief in global warming and confidence in that belief: 1989–2017	Climate Change in the American Mind	How sure respondent is that global warming is happening
			How sure respondent is that global warming is not happening
			Respondent agrees that more than 90% of climate scientists think that human-caused global warming is happening
			Worry about global warming

Centers for Disease Control and Prevention

Graphic	Title	Product	Source
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	Centers for Disease Control and Prevention technology development programs	CDC technology development program summary

China Research Institute for Science Popularization

Graphic	Title	Product	Source
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	Chinese National Survey of Public Scientific Literacy	Factual knowledge questions - China

Council of Canadian Academies

Graphic	Title	Product	Source
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	Science Culture: Where Canada stands(2014)	Factual knowledge questions - Canada

Economic Development Administration

Graphic	Title	Product	Source
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	Economic Development Administration technology development programs	EDA technology development program summary

Elsevier

Graphic	Title	Product	Source
Figure 5-22	S&E articles, by global share of selected region, country, or economy: 2006–16	Scopus	All S&E articles by region, country, or economy
Table 5-22	S&E articles in all fields, by country or economy: 2006 and 2016	Scopus	All S&E articles by region, country, or economy
Figure 5-23	U.S. academic and non-academic S&E articles: 2003-16	Scopus	U.S. S&E articles by field and sector
Table 5-23	S&E research portfolios of selected region, country, or economy, by field: 2016	Scopus	All S&E articles by region, country, or economy
			S&E articles in agricultural sciences by region, country, or economy
			S&E articles in astronomy by region, country, or economy
			S&E articles in biological sciences by region, country, or economy
			S&E articles in chemistry by region, country, or economy
			S&E articles in computer sciences by region, country, or economy
			S&E articles in engineering by region, country, or economy
			S&E articles in geosciences by region, country, or economy
			S&E articles in mathematics by region, country, or economy
			S&E articles in medical sciences by region, country, or economy
			S&E articles in other life sciences by region, country, or economy
			S&E articles in physics by region, country, or economy
			S&E articles in psychology by region, country, or economy
			S&E articles in social sciences by region, country, or economy
Figure 5-24	Share of world articles in all fields with authors from multiple institutions, domestic-only institutions, and international coauthorship: 2006 and 2016	Scopus	Share of world articles in all fields with authors from multiple institutions, domestic-only institutions, and international coauthorship
Table 5-24	Share of U.S. S&E articles, by sector and field: 2016	Scopus	U.S. S&E articles by field and sector
Figure 5-25	Share of world S&E articles with international collaboration, by S&E field: 2006 and 2016	Scopus	Share of world S&E articles with international collaboration, by S&E field
Table 5-25	Shares of U.S. sector publications coauthored with other U.S. sectors and foreign institutions: 2006 and 2016	Scopus	U.S. sector publications coauthored with other U.S. sectors and foreign institutions
Figure 5-26	Share of S&E articles internationally coauthored, by selected region, country, or economy: 2006 and 2016	Scopus	S&E articles in all fields by coauthorship attribute and selected region, country, or economy
Table 5-26	International coauthorship of S&E articles with the United States, by selected country or economy: 2016	Scopus	International coauthorship of S&E articles with the United States, by selected country or economy
App. Table 5-26	Regions, countries, or economies in S&E publications data	Scopus	Regions, countries, or economies in S&E publications data (Scopus)
Figure 5-27	Share of citations to selected region, country, or economy that are received from authors abroad: 1996–2014	Scopus	Citations from international S&E publications by region, country, or economy
Table 5-27	Index of international collaboration on S&E articles, by selected country or economy pair: 2006 and 2016	Scopus	Indexes of internationally coauthored S&E publications by selected region, country, or economy pairs
App. Table 5-27	S&E articles in all fields combined, by region, country, or economy: 2003–16	Scopus	All S&E articles by region, country, or economy
Figure 5-28	Average relative citations, by region, country, or economy: 1996–2014	Scopus	Average of relative citations in the Scopus database by region, country, or economy
Table 5-28	Relative citation index, by selected region, country, or economic pair: 2014	Scopus	Relative citation index by selected country pair
App. Table 5-28	S&E articles in agricultural sciences, by region, country, or economy: 2003–16	Scopus	S&E articles in agricultural sciences by region, country, or economy
Figure 5-29	Average relative citations for the United States, by S&E field: 2004 and 2014	Scopus	Average of relative citations for the United States, by scientific field
App. Table 5-29	S&E articles in astronomy, by region, country, or economy: 2003-16	Scopus	S&E articles in astronomy by region, country, or economy
Figure 5-30	Share of S&E publications in the top 1% of most cited publications, by selected region, country, or economy: 2004–14	Scopus	Share of publications in top 1% most-cited articles in the Scopus database by region, country, or economy
App. Table 5-30	S&E articles in biological sciences, by region, country, or economy: 2003–16	Scopus	S&E articles in biological sciences by region, country, or economy
Figure 5-31	S&E publication output in the top 1% of cited publications, by selected region, country, or economy: 2004–14	Scopus	Share of U.S., EU, and selected European countries S&E articles that are in the world’s top 1% of cited articles
App. Table 5-31	S&E articles in chemistry, by region, country, or economy: 2003-16	Scopus	S&E articles in chemistry by region, country, or economy
Figure 5-32	Average relative citations for U.S. S&E articles, by sector: 2004-14	Scopus	Average of relative citations of U.S. S&E articles by sector
App. Table 5-32	S&E articles in computer sciences, by region, country, or economy: 2003–2016	Scopus	S&E articles in computer sciences by region, country, or economy
App. Table 5-33	S&E articles in engineering, by region, country, or economy: 2003–2016	Scopus	S&E articles in engineering by region, country, or economy
App. Table 5-34	S&E articles in geosciences, by region, country, or economy: 2003–16	Scopus	S&E articles in geosciences by region, country, or economy
App. Table 5-35	S&E articles in mathematics, by region, country, or economy: 2003-16	Scopus	S&E articles in mathematics by region, country, or economy
App. Table 5-36	S&E articles in medical sciences, by region, country, or economy: 2003-16	Scopus	S&E articles in medical sciences by region, country, or economy
App. Table 5-37	S&E articles in other life sciences, by region, country, or economy: 2003-16	Scopus	S&E articles in other life sciences by region, country, or economy
App. Table 5-38	S&E articles in physics, by region, country, or economy: 2003-16	Scopus	S&E articles in physics by region, country, or economy
App. Table 5-39	S&E articles in psychology, by region, country, or economy: 2003–16	Scopus	S&E articles in psychology by region, country, or economy
App. Table 5-40	S&E articles in social sciences, by region, country, or economy: 2003-16	Scopus	S&E articles in social sciences by region, country, or economy
App. Table 5-41	U.S. S&E articles, by field and sector: 2003-16	Scopus	U.S. S&E articles by field and sector
App. Table 5-42	S&E articles in all fields combined, by coauthorship attribute and selected region, country, or economy: 2003-16	Scopus	S&E articles by coauthorship attribute and selected region, country, or economy
App. Table 5-43	Indexes of internationally coauthored S&E publications, by selected region, country, or economy pairs: 2006 and 2016	Scopus	Indexes of internationally coauthored S&E publications by selected region, country, or economy pairs
App. Table 5-44	Internationally coauthored S&E publications, by selected region, country, or economy pairs: 2003 and 2016	Scopus	Internationally coauthored S&E publications by selected region, country, or economy pairs
App. Table 5-45	U.S. sector publications coauthored with other U.S. sectors and foreign institutions: 2003 and 2016	Scopus	U.S. sector publications coauthored with other U.S. sectors and foreign institutions
App. Table 5-46	U.S. S&E articles, by field and coauthorship attribute: 2003-16	Scopus	U.S. S&E articles, by field and coauthorship attribute
App. Table 5-47	Citations from international S&E publications, by region, country, or economy: 1996-2014	Scopus	Citations from international S&E publications by region, country, or economy
App. Table 5-48	Share of S&E articles, by field, citation percentile, and country or economy of institutional author: 2004 and 2014	Scopus	Share of S&E articles by field, citation percentile, and country or economy of institutional author
App. Table 5-49	Average relative citations for the United States, by scientific field: 1996–2014	Scopus	Average of relative citations for the United States, by scientific field
App. Table 5-50	Average relative citations in the Scopus database, by region, country, or economy: 1996–2014	Scopus	Average of relative citations in the Scopus database by region, country, or economy
App. Table 5-51	Share of S&E publications in the top 1% of most-cited articles in the Scopus database, by region, country, or economy: 1996–2014	Scopus	Share of publications in top 1% most-cited articles in the Scopus database by region, country, or economy
Figure 5-D	Filtered and unfiltered publications in Scopus, by year: 2006-16	Scopus	Filtered and unfiltered publications in Scopus
Table 5-D	Number of titles and publications filtered from the Scopus database	Scopus	Number of titles and publications filtered
Figure 5-E	Filtered and unfiltered publications in Scopus, by region, country, or economy: 2006-16	Scopus	Filtered and unfiltered publications in Scopus
Figure 5-F	Filtered and unfiltered publications in Scopus, by WebCASPAR field: 2006–16	Scopus	Filtered and unfiltered publications in Scopus
Figure 5-G	Trends in the proportion of female authors of S&E publications in Scopus: 2006–15	Scopus	Proportion of female authors of S&E publications in Scopus
Figure 5-H	Proportion of female authors of S&E publications, by field: 2006–15	Scopus	Proportion of female authors of S&E publications in Scopus
Figure 5-I	Proportion of female authors of S&E publications, by country: 2006–15	Scopus	Proportion of female authors of S&E publications in Scopus
Table 8-5	U.S. business-sector publications with other U.S. sectors and foreign institutions: 2016	Scopus	U.S. sector publications coauthored with other U.S. sectors and foreign institutions
Table 8-6	U.S. utility patents citing S&E literature, by patent assignee sector, article author sector, and patent issue year: 2013–16	Scopus	S&E articles
Figure 8-11	Citations of U.S. S&E articles in U.S. patents, by selected S&E article field: 2016	Scopus	U.S. S&E articles
Figure 8-12	Citation of U.S. S&E articles in USPTO patents, by selected S&E field and article author sector: 2016	Scopus	U.S. S&E articles by field and sector
App. Table 8-28	Citation of S&E articles in USPTO patents, by cited field and cited country and sector: 2013–16	Scopus	S&E articles by field, country, and sector

Environmental Protection Agency

Graphic	Title	Product	Source
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	Environmental Protection Agency technology development programs	EPA technology development program summary

European Comission

Graphic	Title	Product	Source
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	Eurobarometer	Factual knowledge questions - European Union

Federal Reserve

Graphic	Title	Product	Source
Figure 6-A	Growth in output of selected categories of industries, by selected country or economy: 2011–16	Federal Reserve Economic Research and Data	Foreign Exchange Rates
Figure 6-B	U.S. dollar exchange rate with selected currencies: 2011–16	Federal Reserve Economic Research and Data	U.S. dollar exchange rate with selected currencies

Gallup

Graphic	Title	Product	Source
Figure 7-17	Concern about specific environmental issues: 1989–2017	Gallup, Climate Change: Environment	Gallup climate change/environment survey responses
Figure 7-19	Belief in global warming and confidence in that belief: 1989–2017	Gallup Social Series: Environment	How well respondent understands global warming
			Respondent agrees that most scientists believe that global warming is occurring
			Worry about global warming or climate change
Figure 7-20	Views on nuclear energy: 1994–2017	Gallup Social Series: Environment	Favor use of nuclear energy
Figure 7-20	Views on nuclear energy: 1994–2017	Gallup Social Series: Environment	Opinion of expanding nuclear energy

General Motors

Graphic	Title	Product	Source
Figure 6-17	Manufacturing facilities of General Motors, Toyota, and Volkswagen, by selected region, country, or economy: 2016	GM Corporate Newsroom	GM plants & facilities

Google

Graphic	Title	Product	Source
Table 1-19	Percentage of principals reporting that their schools offer at least one computer science course, by grade level, size, and locale: 2016	Trends in the State of Computer Science in U.S. K-12 Schools	Percentage of principals reporting that their schools offer at least one computer science course, by grade level, size, and urbanicity

Higher Education Statistics Agency

Graphic	Title	Product	Source
App. Table 2-42	Foreign S&E student enrollment in United Kingdom universities, by enrollment level, place of origin, and field: Academic years 2005–06 and 2015–16	Higher Education Statistics Agency Data	Foreign students enrollment in UK universities

IHS Global Insight

India Department of Higher Education

Graphic	Title	Product	Source
Figure 2-25	Natural sciences and engineering doctoral degrees, by selected country: 2000–14	All India Survey on Higher Education	Doctoral degrees - India (various years)
App. Table 2-34	First university degrees, by selected region, country, or economy: 2014 or most recent year	All India Survey on Higher Education	First university degrees - India (AISHE 2015)
App. Table 2-36	First university degrees, by field, sex, and selected region, country, or economy: 2014 or most recent year	All India Survey on Higher Education	First university degrees - India (AISHE 2015)
App. Table 2-37	Earned doctoral degrees, by selected region, country, or economy and field: 2014 or most recent year	All India Survey on Higher Education	Doctoral degrees - India (AISHE 2015)
App. Table 2-40	Earned S&E doctoral degrees, by sex, selected region, country, or economy, and field: 2014 or most recent year	All India Survey on Higher Education	Doctoral degrees - India (AISHE 2015)

Internal Revenue Service

Graphic	Title	Product	Source
App. Table 4-14	Federal research and experimentation tax credit claims, by NAICS industry: 2001–13	Statistics of Income Program	SOI Tax Stats - Corporation Research Credit

International Energy Agency

Graphic	Title	Product	Source
Figure 6-35	Government RD&D expenditures on sustainable energy technologies, by selected region, country, or economy: 2005-14	IEA Energy Technology RD&D Budgets	RD&D expenditures on sustainable energy technologies, by selected region, country, or economy
Figure 6-44	Government RD&D expenditures on sustainable energy technologies, by technology: 2014	IEA Energy Technology RD&D Budgets	Government RD&D expenditures on sustainable energy technologies, by technology
App. Table 6-46	Government RD&D in sustainable energy technologies, by region, country, or economy: 2005–14	IEA Energy Technology RD&D Budgets	Government RD&D in sustainable energy technologies, by region, country, or economy
App. Table 6-47	Government RD&D in nuclear energy, by region, country, or economy: 2005–14	IEA Energy Technology RD&D Budgets	Government RD&D in nuclear energy, by region, country, or economy
App. Table 6-48	Government RD&D in energy efficiency technology, by region, country, or economy: 2005–14	IEA Energy Technology RD&D Budgets	Government RD&D in energy efficiency technology, by region, country, or economy
App. Table 6-49	Government RD&D in other power and storage technologies, by region, country, or economy: 2005–14	IEA Energy Technology RD&D Budgets	Government RD&D in other power and storage technologies, by region, country, or economy
App. Table 6-50	Government RD&D in renewable energy, by region, country, or economy: 2005–14	IEA Energy Technology RD&D Budgets	Government RD&D in renewable energy, by region, country, or economy
App. Table 6-51	Government RD&D in solar energy, by region, country, or economy: 2005–14	IEA Energy Technology RD&D Budgets	Government RD&D in solar energy, by region, country, or economy
App. Table 6-52	Government RD&D in wind energy, by region, country, or economy: 2005–14	IEA Energy Technology RD&D Budgets	Government RD&D in wind energy, by region, country, or economy
App. Table 6-53	Government RD&D in biofuels, by region, country, or economy: 2005–14	IEA Energy Technology RD&D Budgets	Government RD&D in biofuels, by region, country, or economy
App. Table 6-54	Government RD&D in carbon capture and storage, by region, country, or economy: 2005–14	IEA Energy Technology RD&D Budgets	Government RD&D in carbon capture and storage, by region, country, or economy
App. Table 6-55	Government RD&D in hydrogen and fuel cells, by region, country, or economy: 2005–14	IEA Energy Technology RD&D Budgets	Government RD&D in hydrogen and fuel cells, by region, country, or economy

Israeli Ministry of Science Technology and Space, Geocartography Knowledge Group

Graphic	Title	Product	Source
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	Perceptions and attitudes of the Israeli public about science, technology and space	Factual knowledge questions - Israel

Korea Science Foundation

Graphic	Title	Product	Source
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	Survey of Public Attitudes Towards and Understanding of Science and Technology (S. Korea)	Factual knowledge questions - South Korea

Malaysian Science and Technology Information Centre

Graphic	Title	Product	Source
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	Public Awareness of Science, Technology And Innovation (STI) - Malaysia	Factual knowledge questions - Malaysia

Ministry of Education (Singapore)

Graphic	Title	Product	Source
App. Table 2-34	First university degrees, by selected region, country, or economy: 2014 or most recent year	Education Statistics Digest (Singapore)	First university degrees - Singapore (Education Statistics Digest 2015)
App. Table 2-36	First university degrees, by field, sex, and selected region, country, or economy: 2014 or most recent year	Education Statistics Digest (Singapore)	First university degrees - Singapore (Education Statistics Digest 2015)
App. Table 2-37	Earned doctoral degrees, by selected region, country, or economy and field: 2014 or most recent year	Education Statistics Digest (Singapore)	Doctoral degrees - Singapore (Education Statistics Digest 2015)

Ministry of Education (Taiwan)

Graphic	Title	Product	Source
Figure 2-24	First university natural sciences and engineering degrees, by selected country or economy: 2000–14	Educational Statistics of the Republic of China	First university degrees - Taiwan (various years)
App. Table 2-34	First university degrees, by selected region, country, or economy: 2014 or most recent year	Educational Statistics of the Republic of China	First university degrees - Taiwan (Educational Statistics of the Republic of China 2015)
App. Table 2-35	S&E first university degrees, by selected Western or Asian country or economy and field: 2000–14	Educational Statistics of the Republic of China	First university degrees - Taiwan (various years)
App. Table 2-36	First university degrees, by field, sex, and selected region, country, or economy: 2014 or most recent year	Educational Statistics of the Republic of China	First university degrees - Taiwan (Educational Statistics of the Republic of China 2015)
App. Table 2-37	Earned doctoral degrees, by selected region, country, or economy and field: 2014 or most recent year	Educational Statistics of the Republic of China	Doctoral degrees - Taiwan (Educational Statistics of the Republic of China 2015)
App. Table 2-39	S&E doctoral degrees, by selected Asian country or economy and field: 2000–14	Educational Statistics of the Republic of China	Doctoral degrees - Taiwan (various years)
App. Table 2-40	Earned S&E doctoral degrees, by sex, selected region, country, or economy, and field: 2014 or most recent year	Educational Statistics of the Republic of China	Doctoral degrees - Taiwan (Educational Statistics of the Republic of China 2015)

Ministry of Education, Culture, Sports, Science and Technology (Japan)

Graphic	Title	Product	Source
Figure 2-24	First university natural sciences and engineering degrees, by selected country or economy: 2000–14	Survey of Education (Japan)	First university degrees - Japan (various years)
Figure 2-25	Natural sciences and engineering doctoral degrees, by selected country: 2000–14	Survey of Education (Japan)	Doctoral degrees - Japan (various years)
App. Table 2-34	First university degrees, by selected region, country, or economy: 2014 or most recent year	Survey of Education (Japan)	First university degrees - Japan (Survey of Education 2016)
App. Table 2-35	S&E first university degrees, by selected Western or Asian country or economy and field: 2000–14	Survey of Education (Japan)	First university degrees - Japan (various years)
App. Table 2-36	First university degrees, by field, sex, and selected region, country, or economy: 2014 or most recent year	Survey of Education (Japan)	First university degrees - Japan (Survey of Education 2016)
App. Table 2-37	Earned doctoral degrees, by selected region, country, or economy and field: 2014 or most recent year	Survey of Education (Japan)	Doctoral degrees - Japan (Survey of Education 2016)
App. Table 2-39	S&E doctoral degrees, by selected Asian country or economy and field: 2000–14	Survey of Education (Japan)	Doctoral degrees - Japan (various years)
App. Table 2-43	Foreign S&E student enrollment in Japanese universities, by enrollment level, place of origin, and field: 2004 and 2016	Survey of Education (Japan)	Graduate foreign student enrollment in Japanese universities
App. Table 2-43		Survey of Education (Japan)	Undergraduate foreign student enrollment in Japanese universities

MIT Center for Digital Business

Graphic	Title	Product	Source
Figure 6-D	Headquarters of platform companies, by selected region: 2015	Platform Shift: How New Biz Models Are Changing the Shape of Industry	Headquarters of platform companies, by selected region

Muhlenberg College and the University of Michigan

Graphic	Title	Product	Source
Figure 7-19	Belief in global warming and confidence in that belief: 1989–2017	National Surveys on Energy and Environment	Concern about global warming

National Aeronautics and Space Administration

Graphic	Title	Product	Source
Table 8-8	Examples of federal policies and programs supporting early stage technology development and innovation	National Aeronautics and Space Administration technology development programs	NASA technology development program summary
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	National Aeronautics and Space Administration technology development programs	NASA technology development program summary

National Bureau of Statistics of China

Graphic	Title	Product	Source
Figure 2-24	First university natural sciences and engineering degrees, by selected country or economy: 2000–14	China Statistical Yearbook	First university degrees - China (various years)
Figure 2-25	Natural sciences and engineering doctoral degrees, by selected country: 2000–14	China Statistical Yearbook	Doctoral degrees - China (various years)
App. Table 2-34	First university degrees, by selected region, country, or economy: 2014 or most recent year	China Statistical Yearbook	First university degrees - China (China Statistical Yearbook 2015)
App. Table 2-35	S&E first university degrees, by selected Western or Asian country or economy and field: 2000–14	China Statistical Yearbook	First university degrees - China (various years)
App. Table 2-36	First university degrees, by field, sex, and selected region, country, or economy: 2014 or most recent year	China Statistical Yearbook	First university degrees - China (China Statistical Yearbook 2015)
App. Table 2-37	Earned doctoral degrees, by selected region, country, or economy and field: 2014 or most recent year	China Statistical Yearbook	Doctoral degrees - China (China Statistical Yearbook 2015)
App. Table 2-39	S&E doctoral degrees, by selected Asian country or economy and field: 2000–14	China Statistical Yearbook	Doctoral degrees - China (various years)

National Council of Applied Economic Research

Graphic	Title	Product	Source
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	India Science Report	Factual knowledge questions - India

National Institute of Science and Technology Policy (Japan)

Graphic	Title	Product	Source
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	Survey of Public Attitudes Toward and Understanding of Science and Technology in Japan	Factual knowledge questions - Japan

National Institute of Standards and Technology

Graphic	Title	Product	Source
Table 8-3	Federal laboratory technology transfer activity indicators, by selected agencies: FYs 2006, 2009, 2012, 2014	Federal Laboratory Technology Transfer: Summary Report to the President and the Congress	Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2003-2007
			Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2008-2012
			Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2010-2014
Table 8-4	Invention disclosures and patenting, by selected U.S. agencies with federal laboratories: FYs 2006–14	Federal Laboratory Technology Transfer: Summary Report to the President and the Congress	Invention disclosures and patenting, by selected U.S. agencies with federal laboratories
App. Table 8-27	Federal technology transfer activity indicators for U.S. agencies with federal laboratories: FYs 2001–14	Federal Laboratory Technology Transfer: Summary Report to the President and the Congress	Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 1999-2003
			Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2003-2007
			Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2008-2012
			Federal laboratory technology transfer activity indicators, total and for selected agencies: FYs 2010-2014
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	National Institute of Standards and Technology technology development programs	NIST technology development program summary

National Institutes of Health

Graphic	Title	Product	Source
Table 5-21	NIH and NSF research grant applications and funding success rates: 2001–16	NIH Research Grant Data	NIH research grant applications and funding success rates
Table 8-8	Examples of federal policies and programs supporting early stage technology development and innovation	National Institutes of Health technology development programs	NIH technology development program summary
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	National Institutes of Health technology development programs	NIH technology development program summary

National Research University Higher School of Economics (Russia)

Graphic	Title	Product	Source
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	Russian Public Opinion of the Knowledge Economy: Science, Innovation, Information Technology, and Education as Drivers of Economic Growth and Quality of Life	Factual knowledge questions - Russia

National Science Foundation, Directorate for Engineering

Graphic	Title	Product	Source
Table 8-8	Examples of federal policies and programs supporting early stage technology development and innovation	National Science Foundation technology development programs	NSF technology development program summary
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	National Science Foundation technology development programs	NSF technology development program summary

National Science Foundation, National Center for Science and Engineering Statistics

Graphic	Title	Product	Source
Table 2-3	Distribution of U.S. citizen and permanent resident S&E doctorate recipients whose baccalaureate origin is a high-Hispanic-enrollment institution, by ethnicity and race: 2011–15	Survey of Earned Doctorates	U.S. citizen and permanent resident S&E doctorate recipients with baccalaureates from high-Hispanic-enrollment institutions
Table 2-4	U.S. citizen and permanent resident S&E doctorate recipients whose baccalaureate origin is an HBCU, by ethnicity and race: 2011–15	Survey of Earned Doctorates	U.S. citizen and permanent resident S&E doctorate recipients with baccalaureates from an HBCU, by ethnicity and race
Table 2-5	U.S. citizen and permanent resident S&E doctorate recipients who reported earning college credit from a community or 2-year college, by ethnicity and race: 2011–15	Survey of Earned Doctorates	U.S. citizen and permanent resident S&E doctorate recipients reporting earning college credit from a community or 2-year college, by ethnicity and race
Figure 2-6	Full-time S&E graduate students, by source of primary support: 2000–15	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduate students, by source of primary support
Table 2-6	Recent recipients of S&E degrees who attended community college, by sex, race and ethnicity, citizenship status, and parents' education level: 2015	National Survey of College Graduates	Recent recipients of S&E degrees who attended community college, by sex, race and ethnicity, citizenship status, and parents' education level
Figure 2-7	Full-time S&E graduate students with primary support from federal government, by field: 2015	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates supported by the federal government, by field
Figure 2-8	Full-time S&E graduate students, by field and mechanism of primary support: 2015	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduate students, by field and mechanism of primary support
App. Table 2-8	Full-time S&E graduate students, by source and mechanism of primary support: 2000–15	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates by source and mechanism of primary support
Table 2-9	Primary support mechanisms for S&E doctorate recipients, by 2010 Carnegie classification of doctorate-granting institution: 2015	Survey of Earned Doctorates	Doctorate recipients' primary source of support
App. Table 2-9	Full-time S&E graduate students, by field and mechanism of primary support: 2015	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates, by field and mechanism of primary support
App. Table 2-10	Full-time S&E graduate students primarily supported by federal government, by field: 2000–15	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates supported by the federal government, by field
App. Table 2-11	Proportion of full-time S&E graduate students primarily supported by federal government, by field and mechanism of primary support: 2015	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduate students, by field and mechanism of primary support
App. Table 2-12	Full-time S&E graduate students primarily supported by federal government, by agency: 2000–15	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates supported by the federal government, by agency
Table 2-13	Median number of years from entering graduate school to receipt of S&E doctorate, by 2010 Carnegie classification of doctorate-granting institution: 2000–15	Survey of Earned Doctorates	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by field
App. Table 2-13	Full-time S&E graduate students primarily supported by federal government, by field and agency: 2015	Survey of Graduate Students and Postdoctorates in Science and Engineering	Full time S&E graduates supported by the federal government, by agency
App. Table 2-13			Full time S&E graduates supported by the federal government, by field
Table 2-14	Recipients of U.S. S&E doctorates on temporary visas, by country or economy of origin: 1995–2015	Survey of Earned Doctorates	U.S. S&E doctorate recipients on temporary visas
App. Table 2-14	Doctorate recipients' source of primary support, by broad field of study, sex, citizenship, ethnicity, and race: 2013–15	Survey of Earned Doctorates	Doctorate recipients' primary source of support
Table 2-15	Asian recipients of U.S. S&E doctorates on temporary visas, by field and country or economy of origin: 1995–2015	Survey of Earned Doctorates	Asian recipients of U.S. S&E doctorates
App. Table 2-15	Amount of undergraduate and graduate debt of S&E doctorate recipients, by field: 2015	Survey of Earned Doctorates	S&E doctorate recipients undergraduate and graduate debt
Table 2-16	European recipients of U.S. S&E doctorates on temporary visas, by field and region or country of origin: 1995–2015	Survey of Earned Doctorates	European recipients of U.S. S&E doctorates on temporary visas
Table 2-17	North American, South American, and Middle Eastern recipients of U.S. S&E doctorates on temporary visas, by field and region and country of origin: 1995–2015	Survey of Earned Doctorates	North American, South American, and Middle Eastern recipients of U.S. S&E doctorates
Figure 2-19	U.S. S&E doctoral degree recipients, by selected Asian country or economy of origin: 1995–2015	Survey of Earned Doctorates	Asian recipients of U.S. S&E doctorates
Figure 2-20	U.S. S&E doctoral degree recipients, by selected European country: 1995–2015	Survey of Earned Doctorates	U.S. S&E doctorate recipients by selected European country
Figure 2-21	U.S. S&E doctoral degree recipients from Europe, by region: 1995–2015	Survey of Earned Doctorates	U.S. S&E doctorate recipients from Europe
Figure 2-22	U.S. S&E doctoral degree recipients from Canada, Mexico, and Brazil: 1995–2015	Survey of Earned Doctorates	U.S. S&E doctoral degree recipients from Canada, Mexico, and Brazil
App. Table 2-23	S&E graduate enrollment, by field: 2000–15	Survey of Graduate Students and Postdoctorates in Science and Engineering	S&E graduate enrollment, by field
App. Table 2-24	First-time full-time S&E graduate students, by citizenship and field: 2000–15	Survey of Graduate Students and Postdoctorates in Science and Engineering	First-time full-time S&E graduate students, by citizenship and field
App. Table 2-25	S&E graduate enrollment, by citizenship and field: 2000–15	Survey of Graduate Students and Postdoctorates in Science and Engineering	S&E graduate enrollment by citizenship and field
App. Table 2-30	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by field: 1985–2015	Survey of Earned Doctorates	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by field
App. Table 2-31	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by sex, citizenship, ethnicity, race, and broad field of study: 2015	Survey of Earned Doctorates	Median number of years from S&E doctorate recipients' entry to graduate school to receipt of doctorate, by sex, citizenship, race, ethnicity, and broad field of study
Figure 3-1	Employment in S&E occupations, by broad occupational category: 2015 and 2016	National Survey of College Graduates	Employment in S&E occupations, by broad occupational category (NSCG)
Figure 3-2	S&E degrees among college graduates, by field and level of highest degree: 2015	National Survey of College Graduates	S&E degrees among college graduates, by field and level of highest degree
Table 3-2	Classification of degree fields and occupation	National Survey of College Graduates	S&E degrees among college graduates, by field and level of highest degree
Table 3-3	Measures and size of U.S. S&E workforce: 2015 and 2016	National Survey of College Graduates	Employed in S&E occupations (NSCG)
			Employed workers with at least one degree in S&E field
			Job relatedness to highest degree for those with highest degree in S&E field, by occupation
			Job requires S&E technical expertise at bachelor's level
App. Table 3-3	Scientists and engineers, by occupation and degree field: 2015	National Survey of College Graduates	Scientists and engineers, by occupation and field of highest degree
Figure 3-4	Average annual growth in the total number of employed individuals with highest degree in S&E, by field and level of highest degree: 2003–15	National Survey of College Graduates	Employed individuals with highest degree in S&E, by field and level of highest degree: 2015
Figure 3-4		SESTAT Integrated File	Employed individuals with highest degree in S&E, by field and level of highest degree: 2003
Table 3-4	Educational background of college graduates employed in S&E occupations, by broad S&E occupational category: 2015	National Survey of College Graduates	Educational background of college graduates employed in S&E occupations, by broad S&E occupational category
App. Table 3-4	Employment sector of S&E highest degree holders and workers in S&E occupations: 1993, 2003, and 2015	National Survey of College Graduates	Employment sector of S&E highest degree holders
App. Table 3-4		National Survey of College Graduates	Employment sector of workers in S&E occupations
Table 3-5	Relationship of highest degree to job among S&E highest degree holders not in S&E occupations, by degree level: 2015	National Survey of College Graduates	Relationship of highest degree to job among S&E highest degree holders not in S&E occupations
App. Table 3-5	Employment sector of S&E highest degree holders, by level and field of highest degree: 2015	National Survey of College Graduates	Employment sector of S&E highest degree holders, by level and field of highest degree
Figure 3-6	Occupational distribution of scientists and engineers, by broad field of highest degree: 2015	National Survey of College Graduates	Occupational distribution of scientists and engineers, by broad field of highest degree: 2015
Table 3-6	Employment sector of scientists and engineers, by broad occupational category and degree field: 2015	National Survey of College Graduates	Employment sector of scientists and engineers, by broad occupational category and degree field
App. Table 3-6	Scientists and engineers participating in work-related training, by labor force status, highest degree level, and sex: 2015	National Survey of College Graduates	Scientists and engineers participating in work-related training, by labor force status, highest degree level, and sex
Figure 3-7	Occupational distribution of S&E highest degree holders, by field of highest degree: 2015	National Survey of College Graduates	Occupational distribution of S&E highest degree holders, by field of highest degree
Table 3-7	Self-employed scientists and engineers, by education, occupation, and type of business: 2015	National Survey of College Graduates	Self-employed scientists and engineers, by education, occupation, and type of business
App. Table 3-7	Most important reason for scientists and engineers to participate in work-related training, by labor force status: 2015	National Survey of College Graduates	Most important reason for scientists and engineers to participate in work-related training, by labor force status
Figure 3-8	S&E degree holders working in S&E occupations, by level and field of S&E highest degree: 2015	National Survey of College Graduates	Percent of S&E degree holders working in S&E occupations, by level and field of S&E highest degree
App. Table 3-8	Unemployment rates of scientists and engineers, by level of highest degree and broad occupational category: Selected years, 2003–15	SESTAT Integrated File	Unemployment rates of scientists and engineers, by level of highest degree and broad occupational category
Figure 3-9	S&E degree holders employed in jobs related to highest degree, by level of and years since highest degree: 2015	National Survey of College Graduates	S&E degree holders employed in jobs related to highest degree, by level of and years since highest degree
App. Table 3-9	Median annual salaries for employed college-educated individuals, by broad field and level of highest degree and broad occupational category: 2015	National Survey of College Graduates	Median annual salaries for employed college-educated individuals, by broad field and level of highest degree and broad occupational category
Figure 3-10	S&E highest degree holders, by degree level and employment sector: 2015	National Survey of College Graduates	S&E highest degree holders, by degree level and employment sector
Table 3-10	R&D activity rate of scientists and engineers employed in S&E occupations, by broad occupational category and level of highest degree: 2015	National Survey of College Graduates	Scientists and engineers employed in S&E occupations and active in R&D, by broad occupational category and level of highest degree
Table 3-10		National Survey of College Graduates	Scientists and engineers employed in S&E occupations, by broad occupational category and level of highest degree
App. Table 3-10	Postgraduation plans of doctorate recipients with definite commitments, by broad field of study: Selected years, 1975–2015	Survey of Earned Doctorates	Postgraduation plans of doctorate recipients with definite commitments, by broad field of study: 1975, 1985
App. Table 3-10		Survey of Earned Doctorates	Postgraduation plans of doctorate recipients with definite commitments, by broad field of study: Selected years, 1995–2015
Figure 3-11	Broad S&E occupational categories, by employment sector: 2015	National Survey of College Graduates	Broad S&E occupational categories, by employment sector
Table 3-11	Scientists and engineers participating in work-related training, by labor force status and occupation: 2015	National Survey of College Graduates	Scientists and engineers participating in work-related training, by labor force status and occupation
App. Table 3-11	Age profile of employed scientists and engineers, by sex and field of highest degree: 2015	National Survey of College Graduates	Age profile of employed scientists and engineers, by sex and field of highest degree
Figure 3-12	Scientists and engineers employed in the business sector, by employer size: 2015	National Survey of College Graduates	Scientists and engineers employed in the business sector, by employer size
Table 3-12	Scientists and engineers who are working involuntarily out of field, by S&E degree field: Selected years, 2003–15	SESTAT Integrated File	Scientists and engineers who are working involuntarily out of field, by S&E degree field
App. Table 3-12	Employed scientists and engineers, by sex and occupation: 2015	National Survey of College Graduates	Employed scientists and engineers, by sex and occupation
Figure 3-13	Employed scientists and engineers with R&D activity, by broad field of highest degree and broad occupational category: 2015	National Survey of College Graduates	Employed scientists and engineers by broad field of highest degree and broad occupational category
Figure 3-13		National Survey of College Graduates	Employed scientists and engineers with R&D activity, by broad field of highest deree and broad occupational category
App. Table 3-13	Employed S&E highest degree holders, by sex and field of degree: 2015	National Survey of College Graduates	Employed S&E highest degree holders, by sex and field of degree
Figure 3-14	Employed SEH doctorate holders with R&D activity, by years since doctoral degree: 2015	Survey of Doctorate Recipients	Employed SEH doctorate holders with R&D activity, by years since doctoral degree
Table 3-14	Labor market indicators for recent S&E degree recipients up to 5 years after receiving degree, by level and field of highest degree: 2015	National Survey of College Graduates	Involuntary out-of-field (IOF) rate for recent S&E degree recipients up to 5 years after receiving degree, by level and field of highest degree
			Median annual salary for recent S&E degree recipients up to 5 years after receiving degree, by level and field of highest degree
			Unemployment rate for recent S&E degree recipients up to 5 years after receiving degree, by level and field of highest degree
App. Table 3-14	Employed S&E highest degree holders, by sex, race, ethnicity, field of highest degree, and broad occupational category: 2015	National Survey of College Graduates	Employed S&E highest degree holders, by race, field of highest degree, and broad occupational category
App. Table 3-14		National Survey of College Graduates	Employed S&E highest degree holders, by sex, field of highest degree, and broad occupational category
Figure 3-15	Unemployment rates of S&E highest degree holders, by level of and years since highest degree: 2015	Survey of Doctorate Recipients	Unemployment rates of S&E highest degree holders, by level of and years since highest degree
Table 3-15	Employment characteristics of recent SEH doctorate recipients up to 3 years after receiving doctorate, by field of degree: 2001–15	Survey of Doctorate Recipients	Employment characteristics of recent SEH doctorate recipients up to 3 years after receiving doctorate, by field of degree
App. Table 3-15	Employed scientists and engineers, by race, ethnicity, and occupation: 2015	National Survey of College Graduates	Employed scientists and engineers, by race, ethnicity, and occupation
Table 3-16	Employed SEH doctorate recipients holding tenure and tenure-track appointments at academic institutions, by field of and years since degree: Selected years, 1993–2015	Survey of Doctorate Recipients	Employed SEH doctorate recipients holding tenure and tenure-track appointments at academic institutions, by field of and years since degree
App. Table 3-16	Employed S&E highest degree holders, by race, ethnicity, and field of degree: 2015	National Survey of College Graduates	Employed S&E highest degree holders, by race, ethnicity, and field of degree
Figure 3-17	S&E highest degree holders working involuntarily out of field, by field of and years since highest degree: 2015	National Survey of College Graduates	S&E highest degree holders working involuntarily out of field, by field of and years since highest degree
Table 3-17	Median salaries for recent SEH doctorate recipients up to 5 years after receiving degree, by field of degree and employment sector: 2015	Survey of Doctorate Recipients	Median salaries for recent SEH doctorate recipients up to 5 years after receiving degree, by field of degree and employment sector
App. Table 3-17	Estimate and median salary of full-time workers with highest degree in S&E field, by sex and occupation: 2015	National Survey of College Graduates	Estimate of full-time workers with highest degree in S&E field, by sex and occupation
App. Table 3-17		National Survey of College Graduates	Median salary of full-time workers with highest degree in S&E field, by sex and occupation
Figure 3-18	Median salaries for employed, college-educated individuals, by broad field of highest degree and years since highest degree: 2015	National Survey of College Graduates	Median salaries for employed college-educated individuals, by broad field of highest degree and years since highest degree
Table 3-18	Median salaries for recent U.S. SEH doctorate recipients in postdoc and non-postdoc positions up to 5 years after receiving degree: 2015	Survey of Doctorate Recipients	Median salaries for recent U.S. SEH doctorate recipients in postdoc and non-postdoc positions up to 5 years after receiving degree
App. Table 3-18	Estimate and median salary of full-time workers with highest degree in S&E field, by race, ethnicity, and occupation: 2015	National Survey of College Graduates	Estimate of full-time workers with highest degree in S&E field, by race, ethnicity, and occupation
App. Table 3-18		National Survey of College Graduates	Median salary of full-time workers with highest degree in S&E field, by race, ethnicity, and occupation
Figure 3-19	Median salaries for S&E highest degree holders, by broad field of and years since highest degree: 2015	National Survey of College Graduates	Median salaries for S&E highest degree holders, by broad field of and years since highest degree
Table 3-19	Racial and ethnic distribution of U.S. residents, and of employed individuals in S&E occupations, with S&E degrees, and with college degrees: 2015	National Survey of College Graduates	Racial and ethnic distribution of employed individuals in S&E occupations
			Racial and ethnic distribution of employed individuals with college degrees
			Racial and ethnic distribution of employed individuals with highest degree in S&E
App. Table 3-19	Race and ethnic distribution of workers in S&E occupations, by nativity: 2015	National Survey of College Graduates	Race and ethnic distribution of workers in S&E occupations, by nativity
Figure 3-20	Median salaries for S&E highest degree holders, by level of and years since highest degree: 2015	National Survey of College Graduates	Median salaries for S&E highest degree holders, by level of and years since highest degree
Table 3-20	Distribution of workers in S&E occupations, by race and ethnicity: Selected years, 1993–2015	National Survey of College Graduates	Distribution of workers in S&E occupations, by race and ethnicity: 2015
Table 3-20		SESTAT Integrated File	Distribution of workers in S&E occupations, by race and ethnicity: 1993–2015
Figure 3-21	Recent U.S. SEH doctorate recipients in postdoc positions, by field of and years since doctorate: 2015	Survey of Doctorate Recipients	Recent U.S. SEH doctorate recipients in postdoc positions, by field of and years since doctorate
Table 3-21	Racial and ethnic distribution of employed individuals with S&E highest degree, by level of highest degree: 2015	National Survey of College Graduates	Racial and ethnic distribution of employed individuals with highest degree in S&E
App. Table 3-21	Plans of foreign recipients of U.S. doctorates to stay in the United States, by field of doctorate and place of origin: 2004–15	Survey of Earned Doctorates	Plans of foreign recipients of U.S. doctorates to stay in the United States, by field of doctorate and place of origin
Figure 3-22	Age distribution of scientists and engineers in the labor force, by sex: 1993 and 2015	National Survey of College Graduates	Age distribution of scientists and engineers in the labor force, by sex: 2015
Figure 3-22		SESTAT Integrated File	Age distribution of scientists and engineers in the labor force, by sex: 1993
Table 3-22	Racial and ethnic distribution of employed individuals with S&E highest degree, by level of highest degree: 2015	National Survey of College Graduates	Racial and ethnic distribution of employed individuals with highest degree in S&E
Figure 3-23	Age distribution of employed scientists and engineers, by broad occupational category and broad field of highest degree: 2015	National Survey of College Graduates	Age distribution of employed scientists and engineers, by broad occupational category and broad field of highest degree
Table 3-23	Racial and ethnic distribution of employed women in S&E occupations and with S&E highest degrees: 1995 and 2015	National Survey of College Graduates	Racial and ethnic distribution of employed women in S&E occupations and with S&E highest degrees: 2015
Table 3-23		SESTAT Integrated File	Racial and ethnic distribution of employed women in S&E occupations and with S&E highest degrees: 1995
Figure 3-24	Older scientists and engineers who work full time, by age and highest degree level: 2015	National Survey of College Graduates	Older scientists and engineers who work full time, by age and highest degree
Table 3-24	Median annual salary among S&E highest degree holders working full time, by sex, race, and ethnicity: 1995, 2003, and 2015	National Survey of College Graduates	Median annual salary among S&E highest degree holders working full time, by sex, race, and ethnicity: 2015
Table 3-24		SESTAT Integrated File	Median annual salary among S&E highest degree holders working full time, by sex, race, and ethnicity: 1995, 2003
Figure 3-25	Older scientists and engineers who report not working because of retirement, by age and highest degree level: 2015	National Survey of College Graduates	Older scientists and engineers who report not working because of retirement, by age
Table 3-25	Foreign-born workers in S&E occupations, by education level: 1993, 2003, and 2015	National Survey of College Graduates	Foreign-born worker in S&E occupations, by education level: 2015
Table 3-25		SESTAT Integrated File	Foreign-born worker in S&E occupations, by education level: 1995, 2003
Figure 3-26	Women in the workforce and in S&E: 1993 and 2015	National Survey of College Graduates	Women as a percentage of S&E highest degree holders
			Women as a percentage of the college-educated workforce
			Women in S&E occupations: 2015
Figure 3-27	Women in S&E occupations: 1993–2015	National Survey of College Graduates	Women in S&E occupations: 2015
Figure 3-27	Women in S&E occupations: 1993–2015	SESTAT Integrated File	Women in S&E occupations: 1993-2015
Table 3-27	Temporary visa holders receiving S&E doctorates in 2010 and 2005 who were in the United States in 2015, by S&E degree field	Survey of Doctorate Recipients	Temporary visa holders receiving S&E doctorates in 2010 and 2005 who were in the United States in 2015, by S&E degree field
Figure 3-28	Employed women with highest degree in S&E, by degree level: 1993–2015	National Survey of College Graduates	Employed women with highest degree in S&E, by degree level: 2015
Figure 3-28		SESTAT Integrated File	Employed women with highest degree in S&E, by degree level: 1993-2015
Table 3-28	Temporary visa holders receiving S&E doctorates in 2010 and 2005 who were in the United States in 2015, by country of citizenship at time of degree	Survey of Doctorate Recipients	Temporary visa holders receiving S&E doctorates in 2010 and 2005 who were in the United States in 2015, by country of citizenship at time of degree
Figure 3-29	Highest degree holders in S&E not in the labor force, by sex and age: 2015	SESTAT Integrated File	Highest degree holders in S&E not in the labor force, by sex and age
Figure 3-30	Estimated salary differences between women and men with highest degree in S&E employed full time, controlling for selected characteristics, by degree level: 2015	Survey of Doctorate Recipients	Estimated salary differences between women and men with highest degree in S&E employed full time, controlling for selected characteristics, by degree level
Figure 3-31	Estimated salary differences between minorities and whites and Asians with highest degree in S&E employed full time, controlling for selected characteristics, by degree level: 2015	Survey of Doctorate Recipients	Estimated salary differences between minorities and whites and Asians with highest degree in S&E employed full time, controlling for selected characteristics, by degree level
Figure 3-32	Foreign-born scientists and engineers employed in S&E occupations, by highest degree level and broad S&E occupational category: 2015	National Survey of College Graduates	Foreign-born scientists and engineers employed in S&E occupations, by highest degree level and broad S&E occupational category
Figure 3-33	Foreign-born individuals with highest degree in S&E living in the United States, by place of birth: 2015	National Survey of College Graduates	Foreign-born individuals with highest degree in S&E living in the United States, by place of birth
Figure 3-35	Plans at graduation of foreign recipients of U.S. S&E doctoral degrees to stay in the United States, by year of doctorate: 1995–2015	Survey of Earned Doctorates	Plans at graduation of foreign recipients of U.S. S&E doctoral degrees to stay in the United States, by year of doctorate
Figure 3-36	Five-year and ten-year stay rates for U.S. S&E doctoral degree recipients with temporary visas at graduation, 2001–15	Survey of Doctorate Recipients	Five-year and ten-year stay rates for U.S. S&E doctoral degree recipients with temporary visas at graduation
Figure 3-37	Five-year and ten-year stay rates for temporary residents receiving S&E doctorates in 2005 and 2010, by foreign support: 2015	Survey of Doctorate Recipients	Five-year and ten-year stay rates for temporary residents receiving S&E doctorates in 2005 and 2010, by foreign support: 2015
Table 3-B	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution and region of employment: 2001–15 combined	Survey of Earned Doctorates	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment
Table 3-C	Region and state of doctoral institution and employment of doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector: 2001–15 combined	Survey of Earned Doctorates	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment
Table 3-D	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution: 5-year cohorts, 2001–15	Survey of Earned Doctorates	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution
Table 3-E	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment: 5-year cohorts, 2001–15	Survey of Earned Doctorates	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment
Table 3-F	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of doctoral institution: 5-year cohorts, 2001–15	Survey of Earned Doctorates	Doctorate recipients in S&E fields with postgraduation plans for non-postdoc employment in the United States in the business or industry sector, by region of employment
Figure 4-1	U.S. R&D, by performing sector and source of funds: 1953–2015	National Patterns of R&D Resources	U.S. R&D expenditures, by performing sector and source of funds: annual series
Figure 4-1		National Patterns of R&D Resources	U.S. R&D expenditures, by source of funds and performing sector: annual series
Table 4-1	U.S. R&D expenditures, by performing sector and source of funds: 2008–15	National Patterns of R&D Resources	U.S. R&D expenditures by performing sector and source of funds: annual series
App. Table 4-1	U.S. gross domestic product, R&D, and ratio of R&D to gross domestic product (and components): 1953–2015	National Patterns of R&D Resources	Gross domestic product, total R&D, ratio of R&D to gross domestic product: 1953-2015
Figure 4-2	Year-to-year changes in U.S. R&D expenditures, by performing sector: 2010–15	National Patterns of R&D Resources	U.S. R&D expenditures by performing sector and source of funds: annual series
Table 4-2	Annual rates of growth in U.S. R&D expenditures, total and by performing sectors: 1988–2015	National Patterns of R&D Resources	U.S. R&D expenditures by performing sector and source of funds: annual series
App. Table 4-2	U.S. research and development expenditures, by performing sector and source of funds: 1953–2015	National Patterns of R&D Resources	U.S. R&D expenditures by performing sector and source of funds
Figure 4-3	Ratio of U.S. R&D to gross domestic product, by roles of federal, business, and other nonfederal funding for R&D: 1953–2015	National Patterns of R&D Resources	U.S. gross domestic product and R&D: 1953–2015: Gross domestic product, total R&D, ratio of R&D to gross domestic product
Table 4-3	U.S. R&D expenditures, by performing sector, source of funds, and type of work: 2015	National Patterns of R&D Resources	U.S. applied research expenditures, by performing sector and source of funds: annual series
			U.S. basic research expenditures, by performing sector and source of funds: annual series
			U.S. development expenditures, by performing sector and source of funds: annual series
App. Table 4-3	U.S. basic research expenditures, by performing sector and source of funds: 1953–2015	National Patterns of R&D Resources	U.S. basic research expenditures, by source of funds and performing sector
Figure 4-4	U.S. total R&D expenditures, by source of funds: 1953–2015	National Patterns of R&D Resources	U.S. R&D expenditures, by source of funds and performing sector: annual series
Table 4-4	U.S. R&D expenditures by type of work: Selected years, 1970–2015	National Patterns of R&D Resources	U.S. applied research expenditures, by performing sector and source of funds: annual series
			U.S. basic research expenditures, by performing sector and source of funds: annual series
			U.S. development expenditures, by performing sector and source of funds: annual series
App. Table 4-4	U.S. applied research expenditures, by performing sector and source of funds: 1953–2015	National Patterns of R&D Resources	U.S. applied research expenditures, by performing sector and source of funds: annual series
App. Table 4-5	U.S. development expenditures, by performing sector and source of funds: 1953–2015	National Patterns of R&D Resources	U.S. development expenditures, by performing sector and source of funds: annual series
App. Table 4-6	U.S. R&D expenditures, by source of funds and performing sector: 1953–2015	National Patterns of R&D Resources	U.S. R&D expenditures, by performing sector and source of funds
App. Table 4-7	U.S. basic research expenditures, by source of funds and performing sector: 1953–2015	National Patterns of R&D Resources	U.S. basic research expenditures, by source of funds and performing sector
Figure 4-8	Federal obligations for R&D and R&D plant: FYs 1980–2016	Survey of Federal Funds for Research and Development	Federal obligations for research and development, by type of R&D, and for R&D plant: FYs 1951–2017
Table 4-8	Funds spent for business R&D performed in the United States: 2008–15	Business Research and Development and Innovation Survey (BRDIS)	Funds spent for business R&D performed in the United States
App. Table 4-8	U.S. applied research expenditures, by source of funds and performing sector: 1953–2015	National Patterns of R&D Resources	U.S. applied research expenditures, by source of funds and performing sector
Figure 4-9	Federal obligations for R&D and R&D plant, current vs. constant dollars: FYs 1980–2016	Survey of Federal Funds for Research and Development	Research, development, and R&D plant obligations by typ of R&D: FYs 1951–2017
Table 4-9	Funds spent for business R&D performed in the United States, by source of funds and selected industry: 2015	Business Research and Development and Innovation Survey (BRDIS)	Funds spent for business R&D performed in the United States, by source of funds and selected industry: 2015
App. Table 4-9	U.S. development expenditures, by source of funds and performing sector: 1953–2015	National Patterns of R&D Resources	U.S. development expenditures, by source of funds and performing sector
Figure 4-10	Federal obligations for R&D and R&D plant, by selected agencies: FYs 2007–16	Survey of Federal Funds for Research and Development	Federal obligations for research, development, and R&D plant, by agency: FYs 2007–17
Table 4-10	Sales and R&D intensity for companies that performed or funded R&D, by selected industry: 2015	Business Research and Development and Innovation Survey (BRDIS)	Sales and R&D intensity for companies that performed or funded R&D, by selected industry
App. Table 4-10	U.S. R&D expenditures, by state, performing sector, and funding sector: 2015	National Patterns of R&D Resources	U.S. R&D expenditures, by state, by sector and source of funds
Figure 4-11	Federal obligations for R&D, by agency and type of work: FY 2015	Survey of Federal Funds for Research and Development	Research and development obligations, by agency and type of R&D: FY 2015
Table 4-11	Funds spent for business R&D performed in the United States, by size of company: Selected years, 2008–15	Business Research and Development and Innovation Survey (BRDIS)	Funds spent for business R&D performed in the United States, by size of company
App. Table 4-11	U.S. R&D and gross domestic product, by state: 2015	National Patterns of R&D Resources	U.S. R&D expenditures by state
Figure 4-12	Federal obligations for research, by agency and major S&E field: FY 2015	Survey of Federal Funds for Research and Development	Research obligations by agency and field of science and engineering: FY 2015
App. Table 4-13	Funds spent for business R&D performed in the United States, by source of funds and selected industry: 2008–14	Business Research and Development and Innovation Survey (BRDIS)	Funds spent for business R&D performed in the United States, by source of funds and selected industry: 2015
Table 4-15	Federal obligations for R&D and R&D plant, by agency: FYs 2007–16	Survey of Federal Funds for Research and Development	Federal obligations for research, development, and R&D plant, by agency: FYs 2007–17
Table 4-16	Federal obligations for R&D and R&D plant, by agency and performer: FY 2015	Survey of Federal Funds for Research and Development	Federal obligations for R&D plant, by agency and performer: FY 2015
Table 4-16		Survey of Federal Funds for Research and Development	Federal obligations for research and development, by agency and performer: FY 2015
Table 4-17	Federal obligations for R&D, by agency and type of work: FY 2015	Survey of Federal Funds for Research and Development	Research and development obligations, by agency and type of R&D: FY 2015
App. Table 4-20	Difference in federal R&D support, as reported by performers and federal agencies: 1985–2015	National Patterns of R&D Resources	U.S. R&D expenditures, by source of funds and performing sector: annual series
App. Table 4-20		Survey of Federal Funds for Research and Development	Federal obligations for research and development, by performer
App. Table 4-21	Federal obligations for R&D and R&D plant, by type of work: FYs 1953–2016	Survey of Federal Funds for Research and Development	Research, development, and R&D plant obligations by typ of R&D: FYs 1951–2017
App. Table 4-22	Federal funding for R&D and R&D plant, budget authority versus obligations: FYs 1953–2016	Survey of Federal Funds for Research and Development	Federal budget authority for R&D and R&D plant
App. Table 4-22		Survey of Federal Funds for Research and Development	Federal obligations for R&D and R&D plant
App. Table 4-23	Federal obligations for R&D and R&D plant, by agency, performer, and type of work: FY 2015	Survey of Federal Funds for Research and Development	Federal obligations for applied research, by agency and performer: FY 2015
			Federal obligations for basic research, by agency and performer: FY 2015
			Federal obligations for development, by agency and performer: FY 2015
			Federal obligations for R&D plant, by agency and performer: FY 2015
App. Table 4-24	Federal obligations for research, by agency and S&E field: FY 2015	Survey of Federal Funds for Research and Development	Research obligations by agency and field of science and engineering: FY 2015
App. Table 4-25	Federal obligations for research, by detailed S&E field: Selected years, FYs 1990–2015	Survey of Federal Funds for Research and Development	Federal obligations for research, by detailed field of science and engineering: FYs 2007-17
			Federal obligations for research, by detailed field of science and engineering: FYs 1990-2000
			Federal obligations for research, by detailed field of science and engineering: FYs 1996-2006
Figure 4-A	Difference in federal R&D support, as reported by performers and federal agencies: 1985–2015	National Patterns of R&D Resources	U.S. R&D expenditures, by source of funds and performing sector: annual series
Figure 4-A		Survey of Federal Funds for Research and Development	Federal obligations for research and development, by performer
Table 4-A	Top 10 states in U.S. R&D performance, by sector and intensity: 2015	National Patterns of R&D Resources	R&D performance by state: 2015
Figure 5-1	Academic R&D expenditures, by source of funding: FYs 1972–2016	Higher Education Research and Development Survey (HERD)	Higher education R&D expenditures for S&E by funding source
Table 5-1	R&D expenditures at universities and colleges, by field: FY 2016	Higher Education Research and Development Survey (HERD)	R&D expenditures at universities and colleges
App. Table 5-1	Total and federally financed higher education R&D expenditures, by type of R&D: FYs 1953–2016	Higher Education Research and Development Survey (HERD)	Total and federally financed higher education R&D expenditures, by character of work (annual series)
Figure 5-2	Federal and nonfederal funding of academic R&D expenditures: FYs 1997–2016	Higher Education Research and Development Survey (HERD)	Federally financed and total higher education R&D expenditures for S&E
Table 5-2	Higher education R&D expenditures, by source, character of work, and institution type: FYs 2012–16	Higher Education Research and Development Survey (HERD)	Higher education R&D expenditures by source, character of work, and institution type
App. Table 5-2	Sources of R&D funding for public and private academic institutions: Selected years, FYs 1990–2016	Higher Education Research and Development Survey (HERD)	Sources of S&E R&D funds at public and private academic institutions
Figure 5-3	Federally financed academic R&D expenditures, by agency and S&E field: FY 2016	Higher Education Research and Development Survey (HERD)	Federally Financed R&D Expenditures by agency and field
Table 5-3	Higher education R&D expenditures, by Carnegie classification, institution type, and type of cost: FY 2016	Higher Education Research and Development Survey (HERD)	Higher education R&D expenditures by Carnegie classification, institution type, and type of cost
App. Table 5-3	Federally financed higher education R&D expenditures, by federal agency and field: FY 2016	Higher Education Research and Development Survey (HERD)	Federally financed higher education R&D expenditures by federal agency and R&D field
Figure 5-4	Sources of R&D funding for public and private academic institutions: FY 2016	Higher Education Research and Development Survey (HERD)	Sources of S&E R&D funding by academic institution type
Table 5-4	Top six federal agencies' shares of federally funded academic R&D expenditures: FYs 2007–16	Higher Education Research and Development Survey (HERD)	Federal agencies' shares of federally funded academic S&E R&D expenditures
App. Table 5-4	Higher education R&D expenditures, by source of funds and field: FY 2016	Higher Education Research and Development Survey (HERD)	Higher education S&E R&D expenditures by funding source and field
Figure 5-5	Share of academic R&D, by institution rank in R&D expenditures: FYs 1997–2016	Higher Education Research and Development Survey (HERD)	Higher education S&E R&D expenditures ranked by R&D expenditures (annual series)
Table 5-5	Federal funding of academic S&E R&D, by agency and field: FY 2016	Higher Education Research and Development Survey (HERD)	Federal funding of academic S&E R&D, by agency and field
App. Table 5-5	Higher education R&D expenditures, by field: FYs 2007–16	Higher Education Research and Development Survey (HERD)	Total higher education R&D expenditures by field of S&E
Figure 5-6	Change in S&E research space in academic institutions, by 2-year period: FYs 1988–2015	Survey of Science and Engineering Research Facilities	Academic science and engineering research space, by field (annual series)
Table 5-6	Growth of academic R&D expenditures, by field: FYs 1997–2016	Higher Education Research and Development Survey (HERD)	Growth of academic R&D expenditures by S&E field
App. Table 5-6	Higher education R&D expenditures at top 100 R&D-performing institutions, ranked by FY 2015 R&D expenditures: FYs 2007–16	Higher Education Research and Development Survey (HERD)	Higher education S&E R&D expenditures ranked by R&D expenditures
Figure 5-7	Research space at academic institutions, by S&E field: FYs 2007 and 2015	Survey of Science and Engineering Research Facilities	Research Space at Academic Institutions
Table 5-7	Total and institutionally funded R&D expenditures at universities and colleges, by fiscal year, institution type, and Carnegie classification: FYs 2012–16	Higher Education Research and Development Survey (HERD)	Total and institutionally funded R&D expenditures for S&E and all fields by institutional control and Carnegie classification
App. Table 5-7	Expenditures for academic R&D passed through to and received by subrecipients: FYs 2012–16	Higher Education Research and Development Survey (HERD)	Expenditures for academic R&D passed through to and received by subrecipients
Figure 5-8	Current fund expenditures for S&E research equipment at academic institutions, by selected S&E field: Fys 2006-16	Higher Education Research and Development Survey (HERD)	Current fund expenditures for S&E research equipment at academic institutions
Table 5-8	Higher education R&D expenditures at all universities and colleges financed by institutional funds, by source, fiscal year, institution type, and Carnegie classification: FYs 2012–16	Higher Education Research and Development Survey (HERD)	Total and institutionally financed higher education R&D expenditures for all fields, by source, fiscal year, institutional type, and Carnegie Classification
App. Table 5-8	Research space at academic institutions, by S&E field: FYs 2007–2013	Survey of Science and Engineering Research Facilities	Academic science and engineering research space, by field (annual series)
Figure 5-9	S&E doctorate holders employed in academia, by type of position: 1973–2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academic by position type
Table 5-9	Condition of S&E research space in academic institutions, by field: FY 2015	Survey of Science and Engineering Research Facilities	Condition of science and engineering research space in academic institutions, by field
App. Table 5-9	Source of funds for new construction of S&E research space at academic institutions, by year of project start and type of institution: FYs 2002–15	Survey of Science and Engineering Research Facilities	Source of funds for new construction of S&E research space at academic institutions by public and private institution
			Source of funds for new construction of science and engineering research space in academic institutions, by type of institution
			Source of funds for new construction of science and engineering research space in academic institutions, by year of project start and type of institution
Figure 5-10	S&E doctorate holders employed in academia, by field: Selected years, 1973–2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by S&E field
Table 5-10	New construction of S&E research space in academic institutions, by field and time of construction: FYs 2006–17	Survey of Science and Engineering Research Facilities	New construction of S&E research space in academic institutions, by field and time of construction (annual series)
App. Table 5-10	Costs for repair and renovation of research space at academic institutions, by S&E field and time of repair and renovation: FYs 2014–17	Survey of Science and Engineering Research Facilities	Costs for repair and renovation by field, research animal space, and time of repair and renovation
Figure 5-11	Tenure status of S&E doctorate holders employed in academia: 1995-2015	Survey of Doctorate Recipients	Tenure Status of S&E Doctorate Holders
Table 5-11	Tenure status, by field of S&E doctorate holders employed in academia: 1995 and 2015	Survey of Doctorate Recipients	Tenure status by field of doctorate
App. Table 5-11	Source of funds for repair and renovation of S&E research space at academic institutions, by year of project start and type of institution: FYs 2002–15	Survey of Science and Engineering Research Facilities	Source of funds for repair and renovation of S&E research space at academic institutions
Figure 5-12	Women as a percentage of S&E doctorate holders employed full time in academia, by academic rank: Selected years, 1973–2015	Survey of Doctorate Recipients	Women as a percentage of S&E doctorate holders employed full time in academia by academic rank
Table 5-12	Tenure status of S&E doctorate holders employed in academia, by age: 1995 and 2015	Survey of Doctorate Recipients	Tenure status of academically employed S&E doctorate holders by age
App. Table 5-12	Current fund expenditures for research equipment at academic institutions, by S&E field: FYs 2002-2016	Higher Education Research and Development Survey (HERD)	Expenditures for research equipment at academic institutions by S&E field
Figure 5-13	Women as a percentage of younger and older S&E doctorate holders employed full time in academia, by academic rank: 2015	Survey of Doctorate Recipients	Tenure status of academically employed S&E doctorate holders by age
Figure 5-13		Survey of Doctorate Recipients	Tenure status of S&E doctorate holders employed in academia by sex and field
Table 5-13	Tenure status of S&E doctorate holders employed in academia, by career stage and field of doctorate: 2015	Survey of Doctorate Recipients	Tenure status, by career stage and field of doctorate
App. Table 5-13	Federal share of current funding for research equipment at academic institutions, by S&E field: FYs 2002–2016	Higher Education Research and Development Survey (HERD)	Total and federally financed higher education research equipment expenditures, by S&E field
Figure 5-14	Black, Hispanic, and Asian S&E doctorate holders as a percentage of full-time faculty positions, by sex: 2003 and 2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by type of position and degree field
Table 5-14	Women as a percentage of S&E doctorate holders employed in academia, by position: Selected years, 1973–2015	Survey of Doctorate Recipients	Women as a percentage of SEH doctorate holders employed in academia, by position
App. Table 5-14	S&E doctorate holders employed in academia, by type of position and degree field: 1973–2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by type of position and degree field
Figure 5-15	Tenure status of underrepresented minority S&E doctorate holders: 2003 and 2015	Survey of Doctorate Recipients	Tenure Status of S&E Doctorate Holders
Table 5-15	Tenured S&E doctorate holders employed in academia, by sex and field: 1995 and 2015	Survey of Doctorate Recipients	Tenure status of S&E doctorate holders employed in academia by sex and field
App. Table 5-15	S&E doctorate holders employed in academia, by type of position, sex, and degree field: 1973–2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by type of position, sex, and degree field
Figure 5-16	U.S.-trained S&E doctorate holders employed in academia, by birthplace: 1973-2015	Survey of Doctorate Recipients	US-Trained S&E doctorate holders employed in academia by birthplace
Table 5-16	Underrepresented minorities as a percentage of S&E doctorate holders employed in academia, by position: Selected years, 1973–2015	Survey of Doctorate Recipients	Underrepresented minorities as a percentage of SEH doctorate holders employed in academia by position
App. Table 5-16	S&E doctorate holders employed in academia, by type of position, race, ethnicity, and degree field: 1973–2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by type of position, degree field, race, and ethnicity
Figure 5-17	Full-time faculty ages 65–75 at research universities and other higher education institutions: 1973–2015	Survey of Doctorate Recipients	Full-time faculty ages 65–75 at research universities and other higher education institutions
Table 5-17	S&E doctorate holders employed in academia, by age: 1995 and 2015	Survey of Doctorate Recipients	Academically employed SEH doctorate holders by age
App. Table 5-17	S&E doctorate holders employed in academia, by type of position, degree field, and citizenship: 2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by type of position, degree field, and citizenship
Figure 5-18	Primary work activity of full-time doctoral S&E faculty: Selected years, 1973–2015	Survey of Doctorate Recipients	Job duties of full-time doctoral S&E faculty
Table 5-18	Full-time S&E faculty reporting research as a primary work activity, by years since doctorate and degree field: 2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academic by position type
App. Table 5-18	Age distribution of S&E doctorate holders in full-time faculty positions at research universities and other academic institutions: 1973–2015	Survey of Doctorate Recipients	Age distribution of S&E doctorate holders in full-time faculty positions at research universities and other academic institutions
Figure 5-19	S&E doctorate holders employed in academia in a postdoctoral position, by S&E degree field: Selected years, 1973–2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academic postdoc positions by degree field
Table 5-19	S&E doctorate holders employed in academia in postdoc positions, by demographic group: Selected years, 1973–2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academia in postdoc positions, by demographic group
App. Table 5-19	S&E doctorate holders employed in academia, by research priority, type of position, and degree field: 1973–2015	Survey of Doctorate Recipients	S&E doctorate holders employed in academia by research priority, type of position, and degree field
Figure 5-20	S&E doctorate holders employed in very high research activity institutions with federal support, by sex, race, and ethnicity: 2015	Survey of Doctorate Recipients	Full-time S&E doctoral faculty in very high research activity institutions with federal support, by gender and race and ethnicity
Table 5-20	S&E doctorate holders employed in academia in postdoc positions, by Carnegie classification of employer and years since doctorate: 2015	Survey of Doctorate Recipients	S&E doctorate holders with academic employment in postdoc positions by Carnegie institution type and years since doctorate
App. Table 5-20	Early career S&E doctorate holders employed in academia, by Carnegie classification of institution, years since doctorate, and type of position: 1997–2015	Survey of Doctorate Recipients	Early career S&E doctorate holders employed in academia by Carnegie institution type, years since doctorate, and type of position
Figure 5-21	Early career S&E doctorate holders employed in full-time faculty positions with federal support, by field: 1991 and 2015	Survey of Doctorate Recipients	Early career S&E doctorate holders employed in full-time faculty positions with federal support, by field
App. Table 5-21	S&E doctorate holders employed in academia with federal support, by degree field, research activity, and type of position: 1973–2015	Survey of Doctorate Recipients	Academic S&E doctorate holders with federal support by degree field, research activity, and type of position
App. Table 5-22	S&E doctorate holders and full-time faculty with federal support, by degree field and Carnegie classification of employer: 2015	Survey of Doctorate Recipients	S&E doctorate holders and full-time faculty with federal support by degree field and Carnegie classification of employer
App. Table 5-23	S&E doctorate holders with federal support, by Carnegie classification of institution, race and ethnicity, and sex: 2015	Survey of Doctorate Recipients	S&E doctorate holders with federal support by Carnegie classification of institution, race and ethnicity, and gender
App. Table 5-24	Early career S&E doctorate holders employed in academia with federal support, by degree field, years since doctorate, and type of position: 1973–2015	Survey of Doctorate Recipients	Early career S&E doctorate holders employed in academia with federal support by degree field, years since doctorate, and type of position
App. Table 5-25	Fields and subfields of S&E publications data	Integrated Science and Engineering Resources Data System (WebCASPAR)	Fields and subfields of S&E publications data
Table 5-B	Foreign-trained S&E doctorate holders employed in academia, by degree field and sex: 2015	National Survey of College Graduates	Foreign-trained S&E doctorate holders employed in academia by degree field and sex
Table 5-C	Foreign-trained S&E doctorate holders employed in academia, by research and teaching focus: 2015	National Survey of College Graduates	Foreign-trained SEH doctorate holders employed in academia by research and teaching focus
Figure 6-8	U.S. KTI industry share of U.S. business R&D spending, industry output, and industry employment: 2014	Business Research and Development and Innovation Survey (BRDIS)	U.S. KTI industry share of U.S. business R&D spending, industry output, and employment
Figure 7-1	Key science and engineering knowledge and attitude indicators: 1981–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Key science and engineering knowledge and attitude indicators: 1981–2001
App. Table 7-1	Public interest in selected issues: 1979-2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public interest in selected issues: 1979-2001
Table 7-2	Correct answers to scientific process questions: Selected years, 1999–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Correct answers to scientific process questions: 1999–2001
Figure 7-4	Public interest in selected science-related issues: 1981–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public interest in science-related issues, 1981-2001
Figure 7-6	Primary source respondents used to learn about current news events, science and technology, and specific scientific issues: 2001–16	Survey of Public Attitudes Toward and Understanding of Science and Technology	Primary source respondents used to learn about current news events: 2001
			Primary source respondents used to learn about science and technology: 2001
			Primary source respondents used to learn about specific scientific issues: 2001
App. Table 7-6	Public interest in selected issues: 1981–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public interest in selected issues: 1981–2001
Figure 7-7	Mean number of correct answers to trend factual knowledge of science scale: 1992–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Correct answers to trend factual knowledge of science questions: 1992–2001
App. Table 7-8	Correct answers to trend factual knowledge of science questions, by respondent characteristic: 1992-2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Correct answers to factual knowledge questions, by respondent characteristic, 1992-2001
App. Table 7-9	Correct answers to factual knowledge questions in physical and biological sciences: 1985-2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Correct answers to physical and biological science questions, 1985-2001
Figure 7-10	Public assessment of scientific research: 1979–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of scientific research: 1979-2001
Figure 7-11	Public opinion on whether government should fund basic scientific research: 1985–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public opinion of using government funds for scientific research: 1985-2001
Figure 7-12	Public assessment of amount of spending for scientific research: 1981–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of amount of spending for scientific research: 1981–2001
App. Table 7-12	Public assessment of astrology, by respondent characteristic: 1979-2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of astrology: 1979–2001
App. Table 7-14	Understanding of the term "scientific study": 1979–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Understanding of the term "scientific study": 1979–2001
Figure 7-16	Public views about scientists: selected years, 1983–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public perception of scientists: 1983, 1985, 2001
App. Table 7-16	Public assessment of benefits and harms of scientific research: 1979-2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of benefits and harms of scientific research: 1979–2001
Figure 7-18	Perceived danger of specific health and environmental issues: selected years, 1993–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Perceived danger of specific health and environmental issues: 1993, 1994, 2000
App. Table 7-18	Public assessment of whether science and technology result in more opportunities for the next generation: 1985-2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of whether science and technology results in more opportunities: 1985-2001
App. Table 7-20	Public assessment of whether science makes life change too fast: 1979-2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of whether science makes life change too fast: 1979-2001
App. Table 7-22	Public opinion on whether the federal government should fund basic research: 1985-2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public opinion on whether the government should fund basic research: 1985-2001
App. Table 7-23	Public assessment of spending, by policy area: 1983–2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of spending, by policy area: 1983–2001
App. Table 7-30	Public perception of scientists: 1983,1985, 2001, 2012, 2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public perception of scientists: 1983, 1985, 2001
App. Table 7-32	Public assessment of the danger of river, lake, and stream pollution to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of danger of river, lake, and stream pollution to the environment: 1993, 1994
App. Table 7-33	Public assessment of the danger of air pollution from industry to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of danger of air pollution from industry to the environment: 1993, 1994
App. Table 7-34	Public assessment of the danger of climate change to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of danger of climate change to the environment: 1993-94
App. Table 7-35	Public assessment of the danger of nuclear power stations to the environment, by respondent characteristic: 1993, 1994, 2010, 2016	Survey of Public Attitudes Toward and Understanding of Science and Technology	Public assessment of danger of nuclear power stations to the environment: 1993-94
Figure 8-1	For companies that performed or funded R&D, shares rating intellectual property as being very or somewhat important: 2011	Business Research and Development and Innovation Survey (BRDIS)	Importance of copyrights for companies with and without R&D activity, by industry and company size
			Importance of design patents for companies with and without R&D activity, by industry and company size
			Importance of mask works for companies with and without R&D activity, by industry and company size
			Importance of trade secrets for companies with and without R&D activity, by industry and company size
			Importance of trademarks for companies with and without R&D activity, by industry and company size
			Importance of utility patents for companies with and without R&D activity, by industry and company size
Figure 8-2	USPTO patents granted, by selected U.S. industry: 2015	Business Research and Development and Innovation Survey (BRDIS)	USPTO patents granted, by selected U.S. industry
Table 8-9	U.S. companies introducing new or significantly improved products or processes, by company size and industry sector: 2013–15	Business Research and Development and Innovation Survey (BRDIS)	U.S. companies introducing new or significantly improved products or processes, by company size and industry sector
Table 8-10	U.S. companies introducing new or significantly improved products or processes, by industry sector and industry proportions: 2013–15	Business Research and Development and Innovation Survey (BRDIS)	U.S. companies introducing new or significantly improved products or processes, by industry sector and industry proportions
Table 8-11	International comparison of innovation rate, product and process, by country and firm size: 2012–14	Business Research and Development and Innovation Survey (BRDIS)	Innovation rates for U.S. manufacturing and service industries, by type
Figure 8-26	Share of U.S. manufacturing companies reporting product or process innovation, by selected industry: 2013–15	Business Research and Development and Innovation Survey (BRDIS)	Share of U.S. manufacturing companies reporting innovation activities, by selected industry
Figure 8-27	Share of U.S. nonmanufacturing companies reporting product or process innovation, by selected industry: 2013–15	Business Research and Development and Innovation Survey (BRDIS)	Share of U.S. nonmanufacturing companies reporting product or process innovation, by selected industry

National Science Foundation, Office of Budget, Finance, and Award Management

Graphic	Title	Product	Source
Table 5-21	NIH and NSF research grant applications and funding success rates: 2001–16	NSF Research Grant Data	NSF research grant applications and funding success rates

National Science Foundation, Office of Integrative Activities

Graphic	Title	Product	Source
Table 5-A	EPSCoR and EPSCoR-like program budgets, by agency: FYs 2002–16	Federal Agency EPSCoR Funding Data	EPSCoR and EPSCoR-like program budgets by agency

NORC at the University of Chicago

Graphic	Title	Product	Source
Figure 7-1	Key science and engineering knowledge and attitude indicators: 1981–2016	General Social Survey	Key science and engineering knowledge and attitude indicators: 2006–16
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	General Social Survey	Correct answers to factual knowledge questions in physical and biological sciences: 2016
App. Table 7-1	Public interest in selected issues: 1979-2016	General Social Survey	Public interest in selected issues: 2008–2016
Figure 7-2	Key science and engineering indicators, by selected respondent education, sex, and age: 2016	General Social Survey	Key science and engineering indicators: 2016
Table 7-2	Correct answers to scientific process questions: Selected years, 1999–2016	General Social Survey	Correct answers to scientific process questions: 2006–2016
App. Table 7-2	Public interest in selected issues, by respondent characteristic: 2016	General Social Survey	Public interest in selected issues: 2016
Figure 7-3	Public interest in selected issues: 2016	General Social Survey	Public interest in selected issues: 2016
App. Table 7-3	Primary source of information about current news events, by respondent characteristic: 2016	General Social Survey	Primary source of information about current news events: 2016
Figure 7-4	Public interest in selected science-related issues: 1981–2016	General Social Survey	Public interest in science-related issues: 2008–16
App. Table 7-4	Primary source of information about science and technology, by respondent characteristic: 2016	General Social Survey	Primary source of information about science and technology: 2016
Figure 7-5	Primary source respondents used to learn about current news events, science and technology, and specific scientific issues: 2016	General Social Survey	Primary source of information about current news events: 2016
			Primary source of information about science and technology: 2016
			Primary source respondents used to learn about specific scientific issues: 2016
App. Table 7-5	Primary source respondents used to learn about specific scientific issues, by respondent characteristic: 2016	General Social Survey	Primary source respondents used to learn about specific scientific issues: 2016
Figure 7-6	Primary source respondents used to learn about current news events, science and technology, and specific scientific issues: 2001–16	General Social Survey	Primary source respondents used to learn about current news events: 2006–16
			Primary source respondents used to learn about science and technology: 2006–16
			Primary source respondents used to learn about specific scientific issues: 2006–16
App. Table 7-6	Public interest in selected issues: 1981–2016	General Social Survey	Public interest in selected issues: 2008–2016
Figure 7-7	Mean number of correct answers to trend factual knowledge of science scale: 1992–2016	General Social Survey	Correct answers to trend factual knowledge of science questions: 2006–16
App. Table 7-7	Visitors to informal science institutions: 2016	General Social Survey	Visitors to informal science institutions: 2016
Figure 7-8	Correct answers to trend factual knowledge of science scale, by respondent characteristic: 2016	General Social Survey	Correct answers to factual knowledge questions in physical and biological sciences: 2016
App. Table 7-8	Correct answers to trend factual knowledge of science questions, by respondent characteristic: 1992-2016	General Social Survey	Correct answers to trend factual knowledge of science questions: 2006–16
Figure 7-9	Understanding scientific inquiry, by respondent characteristic: 2016	General Social Survey	Understanding scientific inquiry: 2016
App. Table 7-9	Correct answers to factual knowledge questions in physical and biological sciences: 1985-2016	General Social Survey	Correct answers to factual knowledge questions in physical and biological sciences: 2006–16
Figure 7-10	Public assessment of scientific research: 1979–2016	General Social Survey	Public assessment of benefits and harms of scientific research: 2006–16
App. Table 7-10	Correct answers to factual knowledge questions in physical and biological sciences, by respondent characteristic: 2016	General Social Survey	Correct answers to factual knowledge questions in physical and biological sciences: 2016
Figure 7-11	Public opinion on whether government should fund basic scientific research: 1985–2016	General Social Survey	Public opinion on whether federal government should fund basic scientific research: 2006–16
App. Table 7-11	Correct answers to scientific process questions, by respondent characteristic: 2016	General Social Survey	Correct answers to scientific process questions: 2016
Figure 7-12	Public assessment of amount of spending for scientific research: 1981–2016	General Social Survey	Public assessment of amount of spending for scientific research: 2006–2016
App. Table 7-12	Public assessment of astrology, by respondent characteristic: 1979-2016	General Social Survey	Public assessment of astrology: 2006–16
Figure 7-13	Public attitudes toward spending in various policy areas: 2016	General Social Survey	Public assessment of spending, by policy area: 2016
App. Table 7-13	Understanding of the term "scientific study," by respondent characteristic: 2016	General Social Survey	Understanding of the term "scientific study": 2016
Figure 7-14	Public confidence in institutional leaders, by type of institution: 2016	General Social Survey	Public confidence in institutional leaders: 2016
App. Table 7-14	Understanding of the term "scientific study": 1979–2016	General Social Survey	Understanding of the term "scientific study": 2006–16
Figure 7-15	Public confidence in institutional leaders, by selected institution: 1973–2016	General Social Survey	Public confidence in institutional leaders: 1973–2016
App. Table 7-15	Public assessment of benefits and harms of scientific research, by respondent characteristic: 2016	General Social Survey	Public assessment of benefits and harms of scientific research: 2016
Figure 7-16	Public views about scientists: selected years, 1983–2016	General Social Survey	Public perception of scientists: 2012, 2016
App. Table 7-16	Public assessment of benefits and harms of scientific research: 1979-2016	General Social Survey	Public assessment of benefits and harms of scientific research: 2006–16
App. Table 7-17	Public assessment of whether science and technology result in more opportunities for the next generation, by respondent characteristic: 2016	General Social Survey	Public assessment of whether science and technology result in more opportunities for next generation: 2016
Figure 7-18	Perceived danger of specific health and environmental issues: selected years, 1993–2016	General Social Survey	Perceived danger of specific health and environmental issues: 2010, 2016
App. Table 7-18	Public assessment of whether science and technology result in more opportunities for the next generation: 1985-2016	General Social Survey	Public assessment of whether science and technology result in more opportunities for next generation: 2006–16
App. Table 7-19	Public assessment of whether science makes life change too fast, by respondent characteristic: 2016	General Social Survey	Public assessment of whether science makes life change too fast: 2016
App. Table 7-20	Public assessment of whether science makes life change too fast: 1979-2016	General Social Survey	Public assessment of whether science makes life change too fast: 2006–16
Figure 7-21	Views on nanotechnology: 2008, 2010, 2016	General Social Survey	Views on nanotechnology: 2008–2016
App. Table 7-21	Public opinion on whether the federal government should fund basic scientific research, by respondent characteristic: 2016	General Social Survey	Public opinion on whether federal government should fund basic scientific research: 2016
App. Table 7-22	Public opinion on whether the federal government should fund basic research: 1985-2016	General Social Survey	Public opinion on whether federal government should fund basic scientific research: 2006–16
App. Table 7-23	Public assessment of spending, by policy area: 1983–2016	General Social Survey	Public assessment of spending, by policy area: 2002–16
App. Table 7-24	Public assessment of spending on science, by respondent characteristic: 2016	General Social Survey	Public assessment of spending on science: 2016
App. Table 7-25	Public assessment of spending on health, by respondent characteristic: 2016	General Social Survey	Public assessment of spending on health: 2016
App. Table 7-26	Public assessment of spending on the environment, by respondent characteristic: 2016	General Social Survey	Public assessment of spending on the environment: 2016
App. Table 7-27	Public assessment of spending on space, by respondent characteristic: 2016	General Social Survey	Public assessment of spending on space: 2016
App. Table 7-28	Public confidence in institutional leaders, by type of institution: 1973-2016	General Social Survey	Public confidence in institutional leaders: 1973–2016
App. Table 7-29	Public confidence in science leaders, by respondent characteristic: 2016	General Social Survey	Public confidence in science leaders: 2016
App. Table 7-30	Public perception of scientists: 1983,1985, 2001, 2012, 2016	General Social Survey	Public perception of scientists: 2012, 2016
App. Table 7-31	Public perception of scientists, by respondent characteristic: 2016	General Social Survey	Public perception of scientists: 2016
App. Table 7-32	Public assessment of the danger of river, lake, and stream pollution to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	General Social Survey	Public assessment of danger of river, lake, and stream pollution to the environment: 2000 - 16
App. Table 7-33	Public assessment of the danger of air pollution from industry to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	General Social Survey	Public assessment of danger of air pollution from industry to the environment: 2000 - 16
App. Table 7-34	Public assessment of the danger of climate change to the environment, by respondent characteristic: 1993, 1994, 2000, 2010, 2016	General Social Survey	Public assessment of danger of climate change to the environment: 2000–16
App. Table 7-35	Public assessment of the danger of nuclear power stations to the environment, by respondent characteristic: 1993, 1994, 2010, 2016	General Social Survey	Public assessment of danger of nuclear power stations to the environment: 2010–16
App. Table 7-36	Public assessment of the danger of modifying genes of crops to the environment, by respondent characteristic: 2000, 2010, 2016	General Social Survey	Public assessment of danger of modifying genes of crops to the environment: 2000–16
App. Table 7-37	Public assessment of the benefits and harms of nanotechnology, by respondent characteristic: 2006, 2008, 2010, 2016	General Social Survey	Public assessment of benefits and harms of nanotechnology: 2006–16
Figure 7-A	Correct answers to factual knowledge questions, by respondent characteristic: 2006–16 (combined)	General Social Survey	Correct answers to factual knowledge questions in physical and biological sciences: 2006–16

Oak Ridge Institute for Science and Education

Graphic	Title	Product	Source
Figure 3-36	Five-year and ten-year stay rates for U.S. S&E doctoral degree recipients with temporary visas at graduation, 2001–15	Stay Rates of Foreign Doctorate Recipients from U.S. Universities	Five-year and ten-year stay rates for U.S. S&E doctoral degree recipients with temporary visas at graduation

Organization for Economic Cooperation and Development

Graphic	Title	Product	Source
Figure 1-7	Salaries of teachers in developed countries relative to earnings for tertiary educated workers: 2014	Education at a Glance: OECD Indicators	Developed country teachers' salaries relative to earnings for tertiary educated workers
Table 1-24	High school graduation rates, by OECD country: 2014	Education at a Glance: OECD Indicators	High school graduation rates, by OECD country
Table 1-25	Relative standing of U.S. high school graduation rates among OECD countries: 2008, 2010, 2012, and 2014	Education at a Glance: OECD Indicators	High school graduation rates among OECD countries (2008)
			High school graduation rates among OECD countries (2010)
			High school graduation rates among OECD countries (2012)
			High school graduation rates among OECD countries (2014)
Figure 2-23	Attainment of bachelor's or higher degrees, by country and age group: 2015	Education at a Glance: OECD Indicators	Educational attainment by country and age group (OECD 2016)
Figure 2-24	First university natural sciences and engineering degrees, by selected country or economy: 2000–14	Education at a Glance: OECD Indicators	First university degrees - OECD
App. Table 2-33	Expenditures on tertiary education institutions as a percentage of GDP: 2005, 2008, and 2010–13	Education at a Glance: OECD Indicators	Country expenditures on tertiary education
App. Table 2-34	First university degrees, by selected region, country, or economy: 2014 or most recent year	Education at a Glance: OECD Indicators	First university degrees - OECD
App. Table 2-35	S&E first university degrees, by selected Western or Asian country or economy and field: 2000–14	Education at a Glance: OECD Indicators	First university degrees - OECD
App. Table 2-36	First university degrees, by field, sex, and selected region, country, or economy: 2014 or most recent year	Education at a Glance: OECD Indicators	First university degrees - OECD
App. Table 2-37	Earned doctoral degrees, by selected region, country, or economy and field: 2014 or most recent year	Education at a Glance: OECD Indicators	Doctoral degrees - OECD
App. Table 2-38	S&E doctoral degrees in the United States and selected European countries or economies, by field: 2000–14	Education at a Glance: OECD Indicators	Doctoral degrees - OECD
App. Table 3-22	R&D personnel in selected regions or countries: 2000–15	Main Science and Technology Indicators	Total R&D personnel (FTE)
App. Table 3-23	Researchers as a share of total employment and GERD per researcher in selected regions, countries, or economies: 2015	Main Science and Technology Indicators	GERD at constant prices and PPP (2010 $) (OECD)
			Total researchers (FTE)
			Total researchers per thousand total employment
Figure 3-38	Estimated number of researchers in selected regions or countries: 2000–15	Main Science and Technology Indicators	Total researchers (FTE)
Figure 3-39	Researchers as a share of total employment in selected regions or countries: 2000–15	Main Science and Technology Indicators	Total researchers per thousand total employment
Figure 3-40	Gross domestic R&D expenditures (GERD) per researcher in selected regions or countries: 2000–15	Main Science and Technology Indicators	GERD at constant prices and PPP (2010 $) (OECD)
Figure 3-40		Main Science and Technology Indicators	Total researchers (FTE)
Figure 4-5	Global R&D expenditures, by region: 2015	Main Science and Technology Indicators	Global R&D expenditures, by region (OECD)
Table 4-5	International comparisons of gross domestic expenditures on R&D and R&D share of gross domestic product, by region, country, or economy: 2015 or most recent year	Main Science and Technology Indicators	GERD - current PPP$ (OECD)
Table 4-5		Main Science and Technology Indicators	GERD as a percentage of GDP (OECD)
Figure 4-6	Gross domestic expenditures on R&D, by the United States, the EU, and selected other countries: 1981–2015	Main Science and Technology Indicators	GERD - current PPP$ (OECD)
Table 4-6	Gross expenditures on R&D for selected countries, by performing sector and source of funds: 2015 or most recent year	Main Science and Technology Indicators	Percentage of GERD financed by abroad (OECD)
			Percentage of GERD financed by government (OECD)
			Percentage of GERD financed by industry (OECD)
			Percentage of GERD financed by other national sources (OECD)
			Percentage of GERD performed by the business enterprise sector (OECD)
			Percentage of GERD performed by the government sector (OECD)
			Percentage of GERD performed by the higher education sector (OECD)
			Percentage of GERD performed by the private non-profit sector (OECD)
Figure 4-7	Gross domestic expenditures on R&D as a share of gross domestic product, by the United States, the EU, and selected other countries: 1981–2015	Main Science and Technology Indicators	GERD as a percentage of GDP (OECD)
Table 4-7	Gross expenditures on R&D for selected countries, by type of work: 2015 or most recent year	Main Science and Technology Indicators	R&D expenditure by sector of performance and type of R&D: China
			R&D expenditure by sector of performance and type of R&D: France
			R&D expenditure by sector of performance and type of R&D: Germany
			R&D expenditure by sector of performance and type of R&D: Japan
			R&D expenditure by sector of performance and type of R&D: South Korea
			R&D expenditure by sector of performance and type of R&D: United Kingdom
			R&D expenditure by sector of performance and type of R&D: United States
Table 4-12	Business expenditures for R&D, by selected countries and top R&D-performing industries: 2014 or most recent year	Analytical Business Enterprise Resarch and Development (ANBERD) Database	STAN R&D expenditures in industry (ISIC Rev. 4) - China
			STAN R&D expenditures in industry (ISIC Rev. 4) - France
			STAN R&D expenditures in industry (ISIC Rev. 4) - Germany
			STAN R&D expenditures in industry (ISIC Rev. 4) - Japan
			STAN R&D expenditures in industry (ISIC Rev. 4) - South Korea
			STAN R&D expenditures in industry (ISIC Rev. 4) - United Kingdom
			STAN R&D expenditures in industry (ISIC Rev. 4) - United States
App. Table 4-12	Gross expenditures on R&D and expenditures for R&D as a share of gross domestic product, for selected countries or regions: 1981–2015	Main Science and Technology Indicators	GDP - current PPP$ (OECD)
			GERD - constant PPP$ (OECD)
			GERD - current PPP$ (OECD)
			GERD as a percentage of GDP (OECD)
			Implicit GDP price indices (OECD)
Table 4-18	Government R&D support by major socioeconomic objectives, by selected countries or regions and years: Selected years, 2000–15	Main Science and Technology Indicators	Civil budget R&D as a percentage of total GBARD
			Defense budget R&D as a percentage of total GBARD
			Economic development programs as a percentage of civil GBARD
			Education and social programs as a percentage of civil GBARD
			General university funds (GUF) as a percentage of civil GBARD
			Health and Environment programs as a percentage of civil GBARD
			Non-oriented research programs as a percentage of civil GBARD
			Space programs as a percentage of civil GBARD
			Total GBARD -current PPP$
Figure 6-E	Exports of computer, electrical, and optical equipment, by selected region, country, or economy on conventional and value-added basis: 2011	Structural Analysis Database (STAN)	Exports of computer, electrical, and optical equipment, by selected region, country, or economy on conventional and value-added basis
Figure 6-F	China's trade balance in the electrical and optical equipment industry, by selected region, country, or economy on conventional and value-added basis: 2011	Structural Analysis Database (STAN)	China's trade balance in the electrical and optical equipment industry, by selected region, country, or economy on conventional and value-added basis
Figure 6-G	U.S. trade balance in the electrical and optical equipment industry, by selected country or economy on conventional and value-added basis: 2011	Structural Analysis Database (STAN)	U.S. trade balance in the electrical and optical equipment industry, by selected country or economy on conventional and value-added basis
Table 8-11	International comparison of innovation rate, product and process, by country and firm size: 2012–14	OECD Science, Technology and Industry Scoreboard	Innovation rates for manufacturing and service industries, by country and type
Figure 8-29	Contributions to GDP growth, average: 2001-07 and 2009-15, selected OECD countries	OECD Compendium of Productivity Indicators	Contributions to GDP growth: Total economy, annual percentage point contribution

Pew Research Center

Graphic	Title	Product	Source
Figure 7-19	Belief in global warming and confidence in that belief: 1989–2017	Pew Research Center, General Public Science Survey	Solid evidence Earth is warming due to human causes
Figure 7-20	Views on nuclear energy: 1994–2017	Pew Research Center, December 2014 Political Survey	Favor promoting nuclear energy
Figure 7-20	Views on nuclear energy: 1994–2017	Pew Research Center, General Public Science Survey	Favor building more nuclear power plants

PitchBook

Small Business Administration

Graphic	Title	Product	Source
Table 8-7	SBIR and STTR awards funding, by type of award: Selected years, FYs 1983–2015	SBIR/STTR Annual Reports	SBIR and STTR awards, by type of award
App. Table 8-35	SBIR and STTR awards, by type of award: FYs 1983–2015	SBIR/STTR Annual Reports	SBIR and STTR awards, by type of award
App. Table 8-36	SBIR award funding, by type of award and federal agency: FYs 1983–2015	SBIR/STTR Annual Reports	SBIR award funding, by type of award and federal agency
App. Table 8-37	STTR award funding, by type of award and federal agency: FYs 1995–2015	SBIR/STTR Annual Reports	STTR award funding, by type of award and federal agency

Statistics Canada

Graphic	Title	Product	Source
App. Table 2-44	S&E student enrollment in Canadian universities, by enrollment level, place of origin, and S&E field: 2004 and 2014	Center for Education Statistics Data (Canada)	S&E student enrollment in Canadian universities

The College Board

Graphic	Title	Product	Source
Figure 1-6	Percentage distribution of high school students taking an AP exam in mathematics or science, by sex: 2016	AP Data	Distribution of high school students taking an AP exam in mathematics or science, by sex
Table 1-20	Students who took or passed an AP exam in high school, by subject: 2016	AP Data	Students who took or passed an AP exam in high school, by subject
Table 1-21	Students taking AP exams, by subject: 2006 and 2016	AP Data	Students taking AP exams, by subject
Table 2-8	Net tuition and fees for full-time undergraduate students by institutional control: 2006–07 and 2011–12 through 2016–17	Annual Survey of Colleges: Trends in College Pricing	Net tuition and fees for full-time undergraduate students by institutional control

TOP500

Graphic	Title	Product	Source
Figure 6-C	Top-ranked supercomputers, by location of region, country, or economy: 2010–16	TOP500 Lists	Top-ranked supercomputers

Toyota

Graphic	Title	Product	Source
Figure 6-17	Manufacturing facilities of General Motors, Toyota, and Volkswagen, by selected region, country, or economy: 2016	Toyota Company Profile	Toyota facilities

U.N. Department of Economics and Social Affairs

Graphic	Title	Product	Source
App. Table 2-41	Trends in population age 20–24, by selected country and region: 2015–60	World Population Prospects	Population projections through 2060 for selected countries and regions

U.S. Census Bureau

Graphic	Title	Product	Source
App. Table 1-27	High school graduates enrolled in college in October after completing high school, by demographic characteristics and institution type: 1975–2015	Current Population Survey	Parents' education: National Center for Education Statistics (NCES) special tabulations (2017) of Current Population Survey
App. Table 2-41	Trends in population age 20–24, by selected country and region: 2015–60	National Population Projections	Population projections through 2060 by race and ethnicity - United States
Figure 3-3	Individuals employed in S&E occupations in the United States: Selected years, 1960–2015	American Community Survey	2015 ACS 1-year PUMS
		Decennial Census	1960 Decennial Census PUMS - occupations
			1970 Decennial Census PUMS - occupations
			1980 Decennial Census PUMS - occupations
			1990 Decennial Census PUMS - occupations
			2000 Decennial Census PUMS - occupations
Table 3-3	Measures and size of U.S. S&E workforce: 2015 and 2016	American Community Survey	2015 ACS 1-year PUMS
Figure 3-5	Educational attainment, by type of occupation: 2015	American Community Survey	2015 ACS 1-year PUMS
Figure 3-16	Unemployment rate, by selected groups: 1990–2015	Current Population Survey	Merged Outgoing Rotation Group (MORG) files: 1990-2015
Table 3-19	Racial and ethnic distribution of U.S. residents, and of employed individuals in S&E occupations, with S&E degrees, and with college degrees: 2015	American Community Survey	2015 ACS 1-year PUMS
Table 3-25	Foreign-born workers in S&E occupations, by education level: 1993, 2003, and 2015	American Community Survey	2003 ACS PUMS
Table 3-25		American Community Survey	2015 ACS 1-year PUMS
Figure 8-30	Share of firms, job creation, and employment from firms 5 years old or younger: 1982–2015	Business Dynamics Statistics	Share of firms, job creation, and employment from firms 5 years old or younger

U.S. Department of Agriculture

Graphic	Title	Product	Source
Table 8-8	Examples of federal policies and programs supporting early stage technology development and innovation	Department of Agriculture technology development programs	USDA technology development program summary
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	Department of Agriculture technology development programs	USDA technology development program summary

U.S. Department of Defense

Graphic	Title	Product	Source
Table 8-8	Examples of federal policies and programs supporting early stage technology development and innovation	Department of Defense technology development programs	DOD technology development program summary
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	Department of Defense technology development programs	DOD technology development program summary

U.S. Department of Education, National Center for Education Statistics

Graphic	Title	Product	Source
Figure 1-1	Average NAEP mathematics scores of students in grades 4 and 8: 1990-2015	National Assessment of Educational Progress (NAEP)	NAEP mathematics scores for students in grades 4 and 8
App. Table 1-1	Average scores of students in grades 4, 8, and 12 on the main NAEP mathematics assessment, by student characteristics: 1990–2015	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP mathematics assessment, by student characteristics
			Average scores of students in grade 8 on the main NAEP mathematics assessment, by student characteristics
			Average scores of students in grade 12 on the main NAEP mathematics assessment, by student characteristics
Figure 1-2	Average mathematics assessment test scores of children who were in kindergarten for the first time during the 2010–11 school year and in the third grade during the 2013–14 school year, by family income level	Early Childhood Longitudinal Study	Findings From the First-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			Findings From the Second-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			Findings From the Third-Grade Round of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			First-Time Kindergartners in 2010–11: First Findings From the Kindergarten Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
Table 1-2	Average scores of students in grades 4, 8, and 12 on the main NAEP mathematics assessment, by socioeconomic status and sex within race or ethnicity: 2015	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP mathematics assessment, by student characteristics
			Average scores of students in grade 8 on the main NAEP mathematics assessment, by student characteristics
			Average scores of students in grade 12 on the main NAEP mathematics assessment, by student characteristics
App. Table 1-2	Students in grades 4, 8, and 12 scoring at or above main NAEP's proficient level in mathematics for their grade, by student grade and characteristics: 1990-2015	National Assessment of Educational Progress (NAEP)	Students in grade 4 scoring at or above main NAEP's proficient level in mathematics, by student characteristics
			Students in grade 8 scoring at or above main NAEP's proficient level in mathematics, by student characteristics
			Students in grade 12 scoring at or above main NAEP's proficient level in mathematics, by student characteristics
Figure 1-3	Average TIMSS mathematics scores of U.S. students in grades 4 and 8: 1995–2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
Table 1-3	Average scores of students in grades 4, 8, and 12 on the main NAEP science assessment, by socioeconomic status and sex within race or ethnicity: 2015	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP science assessment, by student characteristics
			Average scores of students in grade 8 on the main NAEP science assessment, by student characteristics
			Average scores of students in grade 12 on the main NAEP science assessment, by student characteristics
App. Table 1-3	Average scores of students in grades 4, 8, and 12 on the main NAEP science assessment, by student grade and characteristics: 2009–15	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP science assessment, by student characteristics
			Average scores of students in grade 8 on the main NAEP science assessment, by student characteristics
			Average scores of students in grade 12 on the main NAEP science assessment, by student characteristics
Figure 1-4	Average TIMSS science scores of U.S. students in grades 4 and 8: 1995–2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
Table 1-4	Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment, by socioeconomic status and sex within race or ethnicity: 2014	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment, by student characteristics
App. Table 1-4	Students in grades 4, 8, and 12 scoring at or above the main NAEP's proficient level in science for their grade, by student grade and characteristics: 2009–15	National Assessment of Educational Progress (NAEP)	Students in grade 4 scoring at or above main NAEP's proficient level in science, by student characteristics
			Students in grade 8 scoring at or above main NAEP's proficient level in science, by student characteristics
			Students in grade 12 scoring at or above main NAEP's proficient level in science, by student characteristics
Figure 1-5	Average mathematics and science literacy assessment scores of 15-year-old students in the United States: 2003–15	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
Table 1-5	Average mathematics and science assessment test scores of children who were in kindergarten for the first time during the 2010–11 school year and in the third grade during the 2013–14 school year, by child and family characteristics	Early Childhood Longitudinal Study	Findings From the First-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			Findings From the Third-Grade Round of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			First-Time Kindergartners in 2010–11: First Findings From the Kindergarten Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
App. Table 1-5	Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment and the percentage scoring proficient or above, by student characteristics: 2014	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment, by student characteristics
App. Table 1-5		National Assessment of Educational Progress (NAEP)	Students in grade 8 scoring at or above main NAEP's proficient level in technology and engineering, by student characteristics
Table 1-6	Average TIMSS mathematics scores of U.S. students in grades 4 and 8, by selected student and school characteristics: 2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-6	Average scores of students in grade 4 on the main NAEP mathematics assessment, by race or ethnicity and sex, by state: 2000-15	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP mathematics assessment, by race or ethnicity and sex, by state
Table 1-7	Average TIMSS mathematics scores of students in grades 4 and 8, by education system: 2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-7	Students in grade 4 scoring at or above main NAEP's proficient level in mathematics, by race or ethnicity and sex, by state: 2000–15	National Assessment of Educational Progress (NAEP)	Students in grade 4 scoring at or above main NAEP's proficient level in mathematics, by race or ethnicity and sex, by state
Figure 1-8	Immediate college enrollment rates among high school graduates, by institution type: 1975–2015	Digest of Education Statistics	Percentage of recent high school completers enrolled in 2- and 4-year colleges, by race/ethnicity: 1960 through 2015
			Percentage of recent high school completers enrolled in 2-year and 4-year colleges, by income level: 1975 through 2015
			Recent high school completers and their enrollment in 2-year and 4-year colleges, by sex: 1960 through 2015
Table 1-8	Average TIMSS science scores of U.S. students in grades 4 and 8, by selected student and school characteristics: 2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-8	Average scores of students in grade 4 on the main NAEP science assessment, by race or ethnicity and sex, by state: 2009 and 2015	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 4 on the main NAEP science assessment, by race or ethnicity and sex, by state
Table 1-9	Average TIMSS science scores of students in grades 4 and 8, by education system: 2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-9	Students in grade 4 scoring at or above the main NAEP's proficient level in science, by race or ethnicity and sex, by state: 2009 and 2015	National Assessment of Educational Progress (NAEP)	Students in grade 4 scoring at or above main NAEP's proficient level in science, by race or ethnicity and sex, by state
Table 1-10	Average advanced mathematics and physics scores of U.S. TIMSS Advanced students, by selected student and school characteristics: 2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-10	Average scores of students in grade 8 on the main NAEP mathematics assessment, by race or ethnicity and sex, by state: 2000-15	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 8 on the main NAEP mathematics assessment, by race or ethnicity and sex, by state
Table 1-11	Average scores of U.S. 15-year-old students on the PISA mathematics and science literacy scales, by selected student characteristics: 2015	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
App. Table 1-11	Students in grade 8 scoring at or above the main NAEP's proficient level in mathematics, by race or ethnicity and sex, by state: 2000–15	National Assessment of Educational Progress (NAEP)	Students in grade 8 scoring at or above main NAEP's proficient level in mathematics, by race or ethnicity and sex, by state
Table 1-12	Average mathematics literacy assessment scores for 15-year-olds participating in PISA, by education system: 2015	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
App. Table 1-12	Average scores of students in grade 8 on the main NAEP science assessment, by race or ethnicity and sex, by state: 2009-15	National Assessment of Educational Progress (NAEP)	Average scores of students in grade 8 on the main NAEP science assessment, by race or ethnicity and sex, by state
Table 1-13	Average science literacy assessment scores for 15-year-old students participating in PISA, by education system: 2015	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
App. Table 1-13	Students in grade 8 scoring at or above the main NAEP's proficient level in science, by race or ethnicity and sex, by state: 2009–2015	National Assessment of Educational Progress (NAEP)	Students in grade 8 scoring at or above main NAEP's proficient level in science, by race or ethnicity and sex, by state
Table 1-14	Highest-level mathematics course enrollment of high school completers, by student and family characteristics: 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
App. Table 1-14	Average mathematics assessment test scores of children who were in kindergarten for the first time in the 2010–11 school year and in third grade in the 2013–14 school year, by child and family characteristics	Early Childhood Longitudinal Study	Findings From the First-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			Findings From the Second-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			Findings From the Third-Grade Round of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			First-Time Kindergartners in 2010–11: First Findings From the Kindergarten Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
Table 1-15	Highest-level mathematics course enrollment of high school completers, by socioeconomic status within race or ethnicity, 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
App. Table 1-15	Average science assessment test scores of children who were in kindergarten for the first time in the 2010–11 school year and in third grade in the 2013–14 school year, by child and family characteristics	Early Childhood Longitudinal Study	Findings From the First-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			Findings From the Second-Grade Rounds of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
			Findings From the Third-Grade Round of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
Table 1-16	Science course enrollment of high school completers, by student and family characteristics: 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
App. Table 1-16	Average TIMSS mathematics scores of students in grade 4, by education system: 2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
Table 1-17	Science course enrollment of high school completers, by socioeconomic status within race or ethnicity, 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
App. Table 1-17	Average TIMSS mathematics scores of students in grade 8, by education system: 2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
Table 1-18	Average high school credits earned in technology-related courses and percentage of students earning any credit, for fall 2009 ninth graders, by sex: 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 2013 Update and High School Transcript Study: A First Look at Fall 2009 Ninth-Graders in 2013
App. Table 1-18	Average TIMSS science scores of students in grade 4, by education system: 2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-19	Average TIMSS science scores of students in grade 8, by education system: 2015	Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-20	Average mathematics literacy assessment scores for 15-year-old students participating in PISA, by education system: 2015	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
App. Table 1-21	Average science literacy assessment scores for 15-year-old students participating in PISA, by education system: 2015	Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
App. Table 1-22	Highest-level mathematics course enrollment of high school completers, by gender and socioeconomic status within race or ethnicity: 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
Table 1-23	On-time graduation rates of U.S. public high school students, by student characteristics: 2011−15	Common Core Data Table Library	On-time graduation rates for U.S. public high school students (2013-14)
			On-time graduation rates for U.S. public high school students (2014-15)
			Trends in High School Dropout and Completion Rates in the United States: 2013
App. Table 1-23	Highest-level mathematics course enrollment of high school completers, by student and family characteristics: 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
App. Table 1-24	Science course enrollment of high school completers, by sex and socioeconomic status within race or ethnicity: 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
App. Table 1-25	Science course enrollment of high school completers, by student and family characteristics: 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
Table 1-26	Chapter summary of U.S. performance on K–12 STEM indicators	Common Core Data Table Library	On-time graduation rates for U.S. public high school students (2014-15)
		Digest of Education Statistics	Percentage of recent high school completers enrolled in 2- and 4-year colleges, by race/ethnicity: 1960 through 2015
			Percentage of recent high school completers enrolled in 2-year and 4-year colleges, by income level: 1975 through 2015
			Recent high school completers and their enrollment in 2-year and 4-year colleges, by sex: 1960 through 2015
		Early Childhood Longitudinal Study	Findings From the Third-Grade Round of the Early Childhood Longitudinal Study, Kindergarten Class of 2010–11
		High School Longitudinal Study	High School Longitudinal Study of 2009 (Special Tabulations)
		National Assessment of Educational Progress (NAEP)	Average scores of students in grade 12 on the main NAEP science assessment, by student characteristics
			Average scores of students in grade 4 on the main NAEP mathematics assessment, by student characteristics
			Average scores of students in grade 8 on the main NAEP mathematics assessment, by student characteristics
			Average scores of students in grade 12 on the main NAEP mathematics assessment, by student characteristics
			Average scores of students in grade 4 on the main NAEP science assessment, by student characteristics
			Average scores of students in grade 8 on the main NAEP science assessment, by student characteristics
			Average scores of students in grade 8 on the main NAEP technology and engineering literacy assessment, by student characteristics
		Program for International Student Assessment (PISA)	Performance of U.S. 15-Year-Old Students in Science, Reading, and Mathematics Literacy in an International Context: First Look at PISA 2015
		Trends in International Mathematics and Science Study (TIMSS)	Highlights from TIMSS and TIMSS Advanced 2015: Mathematics and Science Achievement of U.S. Students in Grades 4 and 8 and in Advanced Courses at the End of High School in an International Context
App. Table 1-26	Average high school credits earned in technology-related courses, and percentage earning any credit, for fall 2009 ninth graders, by student, family, and school characteristics: 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 2013 Update and High School Transcript Study: A First Look at Fall 2009 Ninth-Graders in 2013
Table 1-27	Summary of long- and short-term trends in U.S. performance on K–12 STEM indicators	Common Core Data Table Library	Trend in on-time high school graduation rate
		Digest of Education Statistics	Trend in immediate college enrollment
		National Assessment of Educational Progress (NAEP)	Trend in NAEP Mathematics scores
		National Assessment of Educational Progress (NAEP)	Trend in NAEP Science scores
		Program for International Student Assessment (PISA)	Trend in PISA Mathematics scores
		Program for International Student Assessment (PISA)	Trend in PISA Science scores
		Trends in International Mathematics and Science Study (TIMSS)	Trend in TIMSS Mathematics scores
			Trend in TIMSS Science scores
App. Table 1-27	High school graduates enrolled in college in October after completing high school, by demographic characteristics and institution type: 1975–2015	Digest of Education Statistics	Percentage of recent high school completers enrolled in 2- and 4-year colleges, by race/ethnicity: 1960 through 2015
			Percentage of recent high school completers enrolled in 2-year and 4-year colleges, by income level: 1975 through 2015
			Recent high school completers and their enrollment in 2-year and 4-year colleges, by sex: 1960 through 2015
App. Table 1-28	Fall 2009 ninth graders considering a STEM major (among those with an identified major), by program level and student, family, and school characteristics: 2013	High School Longitudinal Study	High School Longitudinal Study of 2009 2013 Update and High School Transcript Study: A First Look at Fall 2009 Ninth-Graders in 2013
Figure 2-1	Selected average revenues and expenditures per FTE at public very high research universities: 2000–15	IPEDS Analytics: Delta Cost Project Database	Selected average revenues and expenditures per FTE at public very high research universities
Table 2-1	Degree-granting institutions, by control and level of institution: 2015–16	Integrated Postsecondary Education Data System: Institutional Characteristics component	Degree-granting institutions, by control and level of institution
App. Table 2-1	S&E degrees awarded, by degree level, Carnegie institution type, and field: 2015	Integrated Postsecondary Education Data System, Completions Survey	S&E degrees awarded, by degree level, Carnegie institution type, and field
Figure 2-2	Average expenditures per FTE on research at public and private very high research universities: 2000–15	IPEDS Analytics: Delta Cost Project Database	Average expenditures on research at private and public very high research universities
Table 2-2	Degree awards, by degree level and institutional control: 2015	Integrated Postsecondary Education Data System, Completions Survey	Degree awards by degree level and institutional control
App. Table 2-2	Degrees awarded by private for-profit academic institutions, by broad field and degree level: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	Degrees awarded by for-profit institutions 2000-2015
Figure 2-3	Average expenditures per FTE on instruction at public and private very high research universities: 2000–15	IPEDS Analytics: Delta Cost Project Database	Average expenditures per FTE on instruction at public and private very high research universities
App. Table 2-3	Degrees awarded by private for-profit academic institutions, by field and degree level: 2015	Integrated Postsecondary Education Data System, Completions Survey	Degrees awarded by for-profit institutions, by field and degree level: 2015
Figure 2-4	Selected average revenues and expenditures at public 4-year and other postsecondary institutions: 2000–15	IPEDS Analytics: Delta Cost Project Database	Selected average revenues and expenditures at public 4-year and other postsecondary institutions
App. Table 2-4	Distance education programs by institutional control, field, and degree level: 2015	Integrated Postsecondary Education Data System, Completions Survey	Distance education programs by institutional control, field, and degree level
Figure 2-5	Selected average revenues and expenditures per FTE at community colleges: 2000–15	IPEDS Analytics: Delta Cost Project Database	Selected average revenues and expenditures per FTE at community colleges
App. Table 2-5	Undergraduate and total enrollment in higher education, by Carnegie institution type: 2000–15	Integrated Postsecondary Education Data System, Fall Enrollment Survey	Undergraduate and total enrollment in higher education, by Carnegie institution type
App. Table 2-6	Average revenue per FTE, by institution type: 2000-2015	IPEDS Analytics: Delta Cost Project Database	Average revenue per full-time equivalent student, by institution type
Table 2-7	Enrollment in Title IV institutions, by distance education enrollment status, control, and level of institution: Fall 2015	Integrated Postsecondary Education Data System, Fall Enrollment Survey	Enrollment in Title IV institutions, by distance education enrollment status, control, and level of institution
App. Table 2-7	Average expenditures per FTE, by institution type: 2000-15	IPEDS Analytics: Delta Cost Project Database	Average expenditures per full-time equivalent student, by institution
Figure 2-9	Share of full-time undergraduate enrollment among U.S. citizens and permanent residents, by race and ethnicity: 2000–15	Integrated Postsecondary Education Data System, Fall Enrollment Survey	Undergraduate enrollment in higher education, by race and ethnicity
Figure 2-10	S&E bachelor's degrees, by field 2000-15	Integrated Postsecondary Education Data System, Completions Survey	S&E bachelor's degrees, by field
Figure 2-11	Women's share of S&E bachelor's degrees, by field: 2000-15	Integrated Postsecondary Education Data System, Completions Survey	S&E bachelor's degrees, by field and sex
Table 2-11	Retention and attainment of postsecondary students at the first academic institution attended through June 2014, by level of first institution and major field category: 2013–14	Beginning Postsecondary Students Longitudinal Study	Retention and attainment of postsecondary students at the first academic institution, by level of first institution and major field category
Figure 2-12	Share of S&E bachelor’s degrees among U.S. citizens and permanent residents, by race and ethnicity: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	Earned bachelor's degrees by citizenship, field, and race or ethnicity
Table 2-12	Major switching among first-time postsecondary students beginning 4-year colleges and universities in 2011–12: 2013–14	Beginning Postsecondary Students Longitudinal Study	Major switching among first-time postsecondary students beginning 4-year colleges and universities
Figure 2-13	S&E master’s degrees, by field: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	S&E master's degrees, by field
Figure 2-14	S&E master's degrees, by sex of recipient: 2000-15	Integrated Postsecondary Education Data System, Completions Survey	S&E master's degrees, by sex
Figure 2-15	S&E master’s degrees, by race, ethnicity, and citizenship: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	S&E master's degrees, by race, ethnicity, and citizenship
Figure 2-16	S&E doctoral degrees earned in U.S. universities, by field: 2000-15	Integrated Postsecondary Education Data System, Completions Survey	Earned S&E doctoral degrees, by field
Figure 2-17	S&E doctoral degrees earned by U.S. citizen and permanent resident underrepresented minorities, by race and ethnicity: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	S&E doctoral degrees earned by U.S. citizen and permanent resident underrepresented minorities, by race and ethnicity
Figure 2-18	S&E doctoral degrees, by race, ethnicity, and citizenship: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	S&E doctoral degrees, by race, ethnicity, and citizenship
App. Table 2-18	Earned associate’s degrees, by sex and field: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	Earned associate's degrees by sex and field
App. Table 2-19	Earned associate’s degrees, by citizenship, field, race, and ethnicity: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	Earned associate's degrees by citizenship, field, and race or ethnicity
App. Table 2-20	Degrees awarded to U.S. citizens and permanent residents, by sex, race, ethnicity, broad field category, and degree level: 2000 and 2015	Integrated Postsecondary Education Data System, Completions Survey	Degrees awarded to U.S. citizens and permanent residents, by sex, race, ethnicity, broad field category, and degree level
App. Table 2-21	Earned bachelor’s degrees, by sex and field: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	Earned bachelor's degrees, by sex and field
App. Table 2-22	Earned bachelor’s degrees, by citizenship, field, race, and ethnicity: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	Earned bachelor's degrees by citizenship, field, and race or ethnicity
Figure 2-24	First university natural sciences and engineering degrees, by selected country or economy: 2000–14	Integrated Postsecondary Education Data System, Completions Survey	First university degrees - United States
Figure 2-25	Natural sciences and engineering doctoral degrees, by selected country: 2000–14	Integrated Postsecondary Education Data System, Completions Survey	Doctoral degrees - United States
App. Table 2-27	Earned master’s degrees, by sex and field: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	Earned Master's degrees, by sex and field
App. Table 2-28	Earned master’s degrees, by citizenship, field, race, and ethnicity: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	Earned master's degrees by citizenship, field, and race or ethnicity
App. Table 2-29	Earned doctoral degrees, by citizenship, field, and sex: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	Earned doctoral degrees, by citizenship, field, and sex
App. Table 2-32	Earned doctoral degrees, by citizenship, field, race, and ethnicity: 2000–15	Integrated Postsecondary Education Data System, Completions Survey	Earned doctoral degrees by citizenship, field, and race or ethnicity
App. Table 2-34	First university degrees, by selected region, country, or economy: 2014 or most recent year	Integrated Postsecondary Education Data System, Completions Survey	First university degrees - United States
App. Table 2-35	S&E first university degrees, by selected Western or Asian country or economy and field: 2000–14	Integrated Postsecondary Education Data System, Completions Survey	First university degrees - United States
App. Table 2-36	First university degrees, by field, sex, and selected region, country, or economy: 2014 or most recent year	Integrated Postsecondary Education Data System, Completions Survey	First university degrees - United States
App. Table 2-37	Earned doctoral degrees, by selected region, country, or economy and field: 2014 or most recent year	Integrated Postsecondary Education Data System, Completions Survey	Doctoral degrees - United States
App. Table 2-38	S&E doctoral degrees in the United States and selected European countries or economies, by field: 2000–14	Integrated Postsecondary Education Data System, Completions Survey	Doctoral degrees - United States
App. Table 2-40	Earned S&E doctoral degrees, by sex, selected region, country, or economy, and field: 2014 or most recent year	Integrated Postsecondary Education Data System, Completions Survey	Doctoral degrees - United States

U.S. Department of Education, Office for Civil Rights

Graphic	Title	Product	Source
Table 1-22	Access to high-level mathematics and sciences courses among students at low versus high black and Latino enrollment schools: 2013-14	Department of Education Civil Rights Data Collection	2013–2014 Civil Rights Data Collection: A first look

U.S. Department of Energy

Graphic	Title	Product	Source
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	Department of Energy technology development programs	DOE technology development program summary

U.S. Department of Homeland Security

Graphic	Title	Product	Source
Table 2-10	International students enrolled in U.S. higher education institutions, by broad field and academic level: 2012–17	Student and Exchange Visitor Information System database	International students' enrollment in U.S. universities
App. Table 2-16	International undergraduate student enrollment in U.S. universities, by field and selected places of origin: Fall 2016 and fall 2017	Student and Exchange Visitor Information System database	International undergraduate student enrollment in U.S. universities
App. Table 2-26	International graduate student enrollment in U.S. universities, by field and selected places of origin: Fall 2016 and fall 2017	Student and Exchange Visitor Information System database	International graduate student enrollment in U.S. universities
App. Table 3-20	Occupations of new H-1B visa recipients: FY 2016	Characteristics of H-1B Specialty Occupation Workers	Occupations of new H-1B visa recipients
Table 3-26	Annual salaries for new H-1B visa recipients, by occupation: FY 2016	Characteristics of H-1B Specialty Occupation Workers	Annual Compensation of H-1B Beneficiaries for Initial Employment by Major Occupation Group: FY 2015
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	Department of Homeland Security technology development programs	DHS technology development program summary

U.S. Department of State

Graphic	Title	Product	Source
Figure 3-34	Temporary work visas issued in categories with many high-skilled workers: FYs 1991–2015	Nonimmigrant Visa Statistics	Nonimmigrant Visa Issuances by Visa Class and by Nationality, and Nonimmigrant Visas by Individual Class of Admission

U.S. Department of Transportation

Graphic	Title	Product	Source
Table 8-8	Examples of federal policies and programs supporting early stage technology development and innovation	Department of Transportation technology development programs	DOT technology development program summary
App. Table 8-38	Federal policies and programs supporting early stage technology development and innovation	Department of Transportation technology development programs	DOT technology development program summary

UNESCO Institute for Statistics

Graphic	Title	Product	Source
Figure 2-24	First university natural sciences and engineering degrees, by selected country or economy: 2000–14	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	First university degrees - UNESCO
Figure 2-25	Natural sciences and engineering doctoral degrees, by selected country: 2000–14	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	Doctoral degrees - UNESCO
Figure 2-26	Internationally mobile students enrolled in tertiary education, by selected country: 2014	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	Internationally mobile students enrolled in tertiary education
App. Table 2-34	First university degrees, by selected region, country, or economy: 2014 or most recent year	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	First university degrees - UNESCO
App. Table 2-35	S&E first university degrees, by selected Western or Asian country or economy and field: 2000–14	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	First university degrees - UNESCO
App. Table 2-36	First university degrees, by field, sex, and selected region, country, or economy: 2014 or most recent year	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	First university degrees - UNESCO
App. Table 2-37	Earned doctoral degrees, by selected region, country, or economy and field: 2014 or most recent year	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	Doctoral degrees - UNESCO
App. Table 2-39	S&E doctoral degrees, by selected Asian country or economy and field: 2000–14	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	Doctoral degrees - UNESCO
App. Table 2-40	Earned S&E doctoral degrees, by sex, selected region, country, or economy, and field: 2014 or most recent year	UNESCO-OECD-Eurostat (UOE) Data Collection on Education Statistics	Doctoral degrees - UNESCO
Figure 4-5	Global R&D expenditures, by region: 2015	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	Global R&D expenditures, by region (UIS)
Table 4-5	International comparisons of gross domestic expenditures on R&D and R&D share of gross domestic product, by region, country, or economy: 2015 or most recent year	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GERD - current PPP$ (UIS)
Table 4-5			GERD as a percentage of GDP (UIS)
Figure 4-6	Gross domestic expenditures on R&D, by the United States, the EU, and selected other countries: 1981–2015	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GERD - current PPP$ (UIS)
Table 4-6	Gross expenditures on R&D for selected countries, by performing sector and source of funds: 2015 or most recent year	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GERD - financed by abroad % (UIS)
			GERD - financed by business enterprise % (UIS)
			GERD - financed by government % (UIS)
			GERD - financed by higher education % (UIS)
			GERD - financed by private non-profit % (UIS)
			GERD - performed by Business enterprise % (UIS)
			GERD - performed by Government % (UIS)
			GERD - performed by Higher education % (UIS)
			GERD - performed by Private non-profit % (UIS)
Figure 4-7	Gross domestic expenditures on R&D as a share of gross domestic product, by the United States, the EU, and selected other countries: 1981–2015	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GERD as a percentage of GDP (UIS)
Table 4-7	Gross expenditures on R&D for selected countries, by type of work: 2015 or most recent year	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GERD - applied research (current PPP$) (UIS)
			GERD - basic research (current PPP$) (UIS)
			GERD - current PPP$ (UIS)
			GERD - experimental development (current PPP$) (UIS)
			GERD - not specified activities (current PPP$) (UIS)
App. Table 4-12	Gross expenditures on R&D and expenditures for R&D as a share of gross domestic product, for selected countries or regions: 1981–2015	UIS Research and Experimental Development Statistics Survey and Partner Data Collection	GDP - current PPP$ (UIS)
			GDP deflators (UIS)
			GERD - constant PPP$ (UIS)
			GERD - current PPP$ (UIS)
			GERD as a percentage of GDP (UIS)

United Nations Statistics Division

Graphic	Title	Product	Source
Table 6-1	Knowledge- and technology-intensive industries, by category	International Standard Industrial Classification (ISIC) of All Economic Activities, Rev. 3	Knowledge- and technology-intensive industries (ISIC)

University of Michigan Institute for Social Research

University of Zurich, Institute of Mass Communication and Media Research

Graphic	Title	Product	Source
Table 7-1	Percentage of correct answers to factual knowledge questions in physical and biological sciences, by region or country: Most recent year	Science Barometer Switzerland	Factual knowledge questions - Switzerland

US Patent and Trademark Office

Volkswagen

Graphic	Title	Product	Source
Figure 6-17	Manufacturing facilities of General Motors, Toyota, and Volkswagen, by selected region, country, or economy: 2016	Volkswagen Group Portrait	Volkswagen production plants

World Trade Organization

Graphic	Title	Product	Source
Figure 6-22	Commercial KI service exports, by selected region, country, or economy: 2008–16	International Trade and Tariff Data	Commercial KI service exports, by selected region, country, or economy
Figure 6-23	Trade balance of commercial KI services, by selected region, country, or economy: 2008–16	International Trade and Tariff Data	Trade balance of commercial KI services, by selected region, country, or economy
Figure 6-24	U.S. and EU commercial KI services trade, by category: 2016	International Trade and Tariff Data	U.S. and EU commercial KI services trade, by category
Figure 6-25	China's and India's trade in commercial KI services, by category: 2016	International Trade and Tariff Data	China's and India's trade in commercial KI services, by category
App. Table 6-25	Exports and imports of commercial KI services, by selected region, country, or economy: 2008–16	International Trade and Tariff Data	Exports and imports of commercial KI services, by region/country/economy
App. Table 6-28	Exports and imports of other business services, by selected region, country, or economy: 2008–16	International Trade and Tariff Data	Exports and imports of other business services, by selected region, country, or economy
App. Table 6-29	Exports and imports of telecommunications and computer and information services, by selected region, country, or economy: 2008–16	International Trade and Tariff Data	Exports and imports of telecommunications and computer and information services, by selected region, country, or economy
App. Table 6-30	Exports and imports of financial services, by selected region, country, or economy: 2008–16	International Trade and Tariff Data	Exports and imports of financial services, by selected region, country, or economy
Figure 8-13	Exports of intellectual property (charges for their use), by selected region, country, or economy: 2008–16	International Trade and Tariff Data	Exports of royalties and fees, by selected region, country, or economy
App. Table 8-29	Exports and imports of charges for the use of intellectual property, by selected region, country, or economy: 2008–16	International Trade and Tariff Data	Exports and imports of charges for the use of intellectual property, by selected region, country, or economy

National Science Board

Science & Engineering Indicators 2018

Data
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Graphic	Title	Product	Source
Figure 6-1	Global KTI industries by output and share of GDP: 2016	World Industry Service	Global KTI industries by output and share of GDP
App. Table 6-1	Regions, countries, or economies in world industry data	World Industry Service	Regions, countries, or economies in world industry data (IHS)
Figure 6-2	Selected industry category share of GDP of developed and developing economies: 2016	World Industry Service	Commercial KI services share of GDP
			HT manufacturing industries share of GDP
			MHT manufacturing industries share of GDP
			Public KI services share of GDP
Table 6-2	Global value added for selected industries, by selected region, country, or economy: 2006 and 2016	World Industry Service	Global valued added for low-technology manufacturing industries
			Global valued added for medium-low technology manufacturing industries
			Global valued added for real estate
			Global valued added for restaurants and hotels
			Global valued added for retail and wholesale trade
			Global valued added for transport and storage
App. Table 6-2	Value added of KTI industries, by region, country, or economy: 2001–16	World Industry Service	Value added of KTI industries, by region, country, or economy
Figure 6-3	Output of KTI industries as a share of the GDP of selected countries or economies: 2016	World Industry Service	Commercial KI services share of GDP
			HT manufacturing industries share of GDP
			MHT manufacturing industries share of GDP
			Public KI services share of GDP
Table 6-3	Global value added for selected industries, by selected region, country, or economy: 2006 and 2016	World Industry Service	Global valued added for agriculture, forestry, and fishing
			Global valued added for construction
			Global valued added for mining
			Global valued added for utilities
App. Table 6-3	Nominal GDP, by region, country, or economy: Selected years, 2001–2016	Global Economic Data (IHS)	Nominal GDP, by region, country, or economy (IHS Global Economic Data)
Figure 6-4	ICT business spending as a share of selected industry categories for selected countries or economies: 2016	Global ICT Navigator	ICT business spending as a share of selected industry categories
App. Table 6-4	Value added of commercial KI services, by region, country, or economy: 2001–16	World Industry Service	Value added of commercial KI services, by region, country, or economy
Figure 6-5	Output of education and health care for selected regions, countries, or economies: 2003–16	World Industry Service	Output of education and health care for selected regions, countries, or economies
App. Table 6-5	Value added of education services, by region, country, or economy: 2001–2016	World Industry Service	Value added of education services, by region, country, or economy
Figure 6-6	Output of commercial KI services for selected regions, countries, or economies: 2003–16	World Industry Service	Output of commercial KI services for selected regions, countries, or economies
App. Table 6-6	Value added of health care, by region, country, or economy: 2001–2016	World Industry Service	Value added of health care, by region, country, or economy
App. Table 6-7	Value added of MHT manufacturing industries, by region, country, or economy: 2001–16	World Industry Service	Value added of MHT manufacturing industries, by region, country, or economy
App. Table 6-8	Value added of HT manufacturing industries, by region, country, or economy: 2001–2016	World Industry Service	Value added of HT manufacturing industries, by region, country, or economy
Figure 6-9	Growth in real GDP, by selected region, country, or economy: 2009–16	Global Economic Data (IHS)	Growth in real GDP, by selected region, country, or economy
App. Table 6-9	Value added of financial services, by region, country, or economy: 2001–2016	World Industry Service	Value added of financial services, by region, country, or economy
Figure 6-10	Global value-added shares of selected service industries for selected regions, countries, or economies: 2016	World Industry Service	Global value-added shares of selected service industries for selected regions, countries, or economies
App. Table 6-10	Value added of business services, by region, country, or economy: 2001–16	World Industry Service	Value added of business services, by region, country, or economy
Figure 6-11	Output of HT manufacturing industries for selected regions, countries, or economies: 2003–16	World Industry Service	Output of HT manufacturing industries for selected regions, countries, or economies
App. Table 6-11	Value added of information services, by region, country, or economy: 2001–16	World Industry Service	Value added of information services, by region, country, or economy
App. Table 6-12	Value added of computer programming and related services, by region, country, or economy: 2001–16	World Industry Service	Value added of computer programming and related services, by region, country, or economy
Figure 6-13	HT manufacturing industries of selected regions, countries, or economies: 2016	World Industry Service	HT manufacturing industries of selected regions, countries, or economies
App. Table 6-13	Value added of all manufacturing industries, by region, country, or economy: 2001–16	World Industry Service	Value added of all manufacturing industries, by region, country, or economy
Figure 6-14	Annual change in value-added output of selected manufacturing industries in China: 2010–15	World Industry Service	Annual change in value-added output of selected manufacturing industries in China
App. Table 6-14	Value added of semiconductor industry, by region, country, or economy: 2001–16	World Industry Service	Value added of semiconductor industry, by region, country, or economy
Figure 6-15	Global share of selected regions, countries, or economies in ICT manufacturing industries: 2016	World Industry Service	Global share of selected regions, countries, or economies in ICT manufacturing industries
App. Table 6-15	Value added of computers and office machinery, by region, country, or economy: 2001–16	World Industry Service	Value added of computers and office machinery, by region, country, or economy
Figure 6-16	Output of MHT manufacturing industries for selected regions, countries, or economies: 2003–16	World Industry Service	Value added of MHT manufacturing industries, by region, country, or economy
App. Table 6-16	Value added of communications, by region, country, or economy: 2001–16	World Industry Service	Value added of communications, by region, country, or economy
App. Table 6-17	Value added of pharmaceuticals industry, by region, country, or economy: 2001–16	World Industry Service	Value added of pharmaceuticals industry, by region, country, or economy
Figure 6-18	Output of motor vehicles and parts industry for selected regions, countries, or economies: 2003–16	World Industry Service	Value added of motor vehicles, trailers, and parts, by region, country, or economy
App. Table 6-18	Value added of testing, measuring, and control instruments industry, by region, country, or economy: 2001–16	World Industry Service	Value added of testing, measuring, and control instruments industry, by region, country, or economy
Figure 6-19	Global share of selected regions, countries, or economies of MHT manufacturing industries: 2016	World Industry Service	Global share of selected regions, countries, or economies of MHT manufacturing industries
App. Table 6-19	Value added of aircraft and spacecraft, by region, country, or economy: 2001–16	World Industry Service	Value added of aircraft and spacecraft, by region, country, or economy
App. Table 6-20	Value added of motor vehicles, trailers, and parts, by region, country, or economy: 2001–16	World Industry Service	Value added of motor vehicles, trailers, and parts, by region, country, or economy
Figure 6-21	Global exports of commercial KTI products and services: 2008–16	World Trade Service	Global exports of commercial KTI products and services
App. Table 6-21	Value added of chemicals excluding pharmaceuticals, by region, country, or economy: 2001–16	World Industry Service	Value added of chemicals excluding pharmaceuticals, by region, country, or economy
App. Table 6-22	Value added of machinery and equipment, by region, country, or economy: 2001–16	World Industry Service	Value added of machinery and equipment, by region, country, or economy
App. Table 6-23	Value added of electrical machinery, by region, country, or economy: 2001–16	World Industry Service	Value added of electrical machinery, by region, country, or economy
App. Table 6-24	Value added of railroad and other transportation equipment, by region, country, or economy: 2001–16	World Industry Service	Value added of railroad and other transportation equipment, by region, country, or economy
Figure 6-26	Exports of HT products, by selected region, country, or economy: 2005–16	World Trade Service	Exports of HT products, by selected region, country, or economy
App. Table 6-26	Exports and imports of high-technology products, by region, country, or economy: 2001–2016	World Trade Service	Exports and imports of high-technology products, by region, country, or economy
Figure 6-27	Trade balance of HT products, by selected region, country, or economy: 2005–16	World Trade Service	Trade balance of HT products, by selected region, country, or economy
App. Table 6-27	Exports and imports of medium-high technology products, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of medium-high technology products, by region, country, or economy
Figure 6-28	Trade in ICT products of selected regions, countries, or economies, by selected trading partner: 2016	World Trade Service	Trade in ICT products of selected regions, countries, or economies, by selected trading partner
Figure 6-29	Exports of MHT products, by selected region, country, or economy: 2005–16	World Trade Service	Exports of MHT products, by selected region, country, or economy
Figure 6-30	Trade balance of MHT products, by selected region, country, or economy: 2005–16	World Trade Service	Trade balance of MHT products, by selected region, country, or economy
Figure 6-31	China and EU MHT trade, by product: 2016	World Trade Service	China and EU MHT trade, by product
App. Table 6-31	Exports and imports of ICT products, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of ICT products, by region, country, or economy
Figure 6-32	Trade in motor vehicles and parts of selected regions, countries, or economies, by selected partner: 2016	World Trade Service	Trade in motor vehicles and parts of selected regions, countries, or economies, by selected partner
App. Table 6-32	Exports and imports of communications products, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of communications products, by region, country, or economy
Figure 6-33	Japan and United States trade in MHT products, by product: 2016	World Trade Service	Japan and United States trade in MHT products, by product
App. Table 6-33	Exports and imports of computer products, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of computer products, by region, country, or economy
App. Table 6-34	Exports and imports of semiconductor products, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of semiconductor products, by region, country, or economy
App. Table 6-35	Exports and imports of testing, measuring, and control instrument products, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of measuring, testing, and control instrument products, by region, country, or economy
App. Table 6-36	Exports and imports of pharmaceutical products, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of pharmaceutical products, by region, country, or economy
App. Table 6-37	Exports and imports of aircraft and spacecraft, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of aircraft products, by region, country, or economy
App. Table 6-38	Regions, countries, or economies in world trade data	World Trade Service	Regions, countries, or economies in world trade data (IHS)
App. Table 6-39	Exports and imports of motor vehicles and parts, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of motor vehicles and parts, by region, country, or economy
App. Table 6-40	Exports and imports of chemicals excluding pharmaceuticals, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of chemicals excluding pharmaceuticals, by region, country, or economy
App. Table 6-41	Exports and imports of machinery, equipment, and appliances, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of machinery, equipment, and appliances, by region, country, or economy
App. Table 6-42	Exports and imports of electrical machinery, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of electrical machinery, by region, country, or economy
App. Table 6-43	Exports and imports of railroad equipment and other transportation products, by region, country, or economy: 2001–16	World Trade Service	Exports and imports of railroad equipment and other transportation products, by region, country, or economy
Figure 6-A	Growth in output of selected categories of industries, by selected country or economy: 2011–16	World Industry Service	Growth in output of selected categories of industries, by selected country or economy

Graphic	Title	Product	Source
Figure 6-45	USPTO patents in sustainable energy technologies, by selected region, country, or economy of inventor: 2006–16	PatentsView	USPTO patents granted in sustainable energy technologies, by region, country, or economy
Figure 6-46	USPTO patents in sustainable energy technologies, by selected region, country, or economy of inventor: 2006–16	PatentsView	USPTO patents granted in sustainable energy technologies, by region, country, or economy
Figure 6-47	USPTO patents in sustainable energy technologies, by selected technology: 2006–16	PatentsView	USPTO patents in sustainable energy technologies, by selected technology
Figure 6-48	Patent activity index of selected sustainable energy technologies for the United States, the EU, Japan, and South Korea: 2014–16	PatentsView	Patent activity index of selected sustainable energy technologies - EU
			Patent activity index of selected sustainable energy technologies - Japan
			Patent activity index of selected sustainable energy technologies - South Korea
			Patent activity index of selected sustainable energy technologies - United States
App. Table 6-56	USPTO patents granted in sustainable energy technologies, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in sustainable energy technologies, by region, country, or economy
App. Table 6-57	USPTO patents granted in alternative energy technologies, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in alternative energy technologies, by region, country, or economy
App. Table 6-58	USPTO patents granted in energy storage technologies, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in energy storage technologies, by region, country, or economy
App. Table 6-59	USPTO patents granted in smart grid technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in smart grid technology, by region, country, or economy
App. Table 6-60	USPTO patents granted in pollution mitigation technologies, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in pollution mitigation technologies, by region, country, or economy
App. Table 6-61	USPTO patents granted in fuel cell technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in fuel cell technology, by region, country, or economy
App. Table 6-62	USPTO patents granted in bioenergy technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in bioenergy technology, by region, country, or economy
App. Table 6-63	USPTO patents granted in solar energy technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in solar energy technology, by region, country, or economy
App. Table 6-64	USPTO patents granted in hybrid and electric vehicle technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in hybrid and electric vehicle technology, by region, country, or economy
App. Table 6-65	USPTO patents granted in wind energy technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in wind energy technology, by region, country, or economy
App. Table 6-66	USPTO patents granted in nuclear energy technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in nuclear energy technology, by region, country, or economy
App. Table 6-67	USPTO patents granted in battery technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in battery technology, by region, country, or economy
App. Table 6-68	USPTO patents granted in hydrogen production and storage technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in hydrogen production and storage technology, by region, country, or economy
App. Table 6-69	USPTO patents granted in cleaner coal technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in cleaner coal technology, by region, country, or economy
App. Table 6-70	USPTO patents granted in capture and storage of carbon and other greenhouse gases technologies, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in capture and storage of carbon and other greenhouse gases technologies, by region, country, or economy
App. Table 6-71	USPTO patents granted in air pollution control technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in air pollution control technology, by region, country, or economy
App. Table 6-72	USPTO patents granted in solid waste control technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in solid waste control technology, by region, country, or economy
App. Table 6-73	USPTO patents granted in water pollution control technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in water pollution control technology, by region, country, or economy
App. Table 6-74	USPTO patents granted in recycling technology, by region, country, or economy: 1998–2016	PatentsView	USPTO patents granted in recycling technology, by region, country, or economy
Table 8-1	U.S. university patent awards, by technology area: 2002 and 2016	PatentsView	U.S. university patent awards, by technology area
App. Table 8-1	USPTO patents granted, by sector: 2002–16	PatentsView	USPTO patents granted, by sector
Table 8-2	Selected technology areas of USPTO patents	PatentsView	Technology areas of USPTO patents
App. Table 8-2	U.S. university patent awards, by technology area: 1996–2016	PatentsView	U.S. university patent awards, by technology area
Figure 8-3	USPTO patents granted to U.S. and non-U.S. academic institutions: 1996–2016	PatentsView	USPTO patents granted to U.S. and non-U.S. academic institutions
App. Table 8-3	Regions, countries, or economies in USPTO patent data	PatentsView	Regions, countries, or economies in USPTO patent data
Figure 8-4	U.S. academic patents, by selected technology area, 5-year averages: 2002–16	PatentsView	U.S. academic patents, by technology area
App. Table 8-4	USPTO patents granted, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted, by region, country, or economy
Figure 8-5	USPTO patents granted, by selected region, country, or economy of inventor: 2006–16	PatentsView	USPTO patents granted, by selected region/country/economy of inventor
App. Table 8-5	USPTO patents granted in computer technology, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in computer technology, by region, country, or economy
Figure 8-6	USPTO patents granted in selected broad technology categories: 2006 and 2016	PatentsView	USPTO patents granted in selected technology categories
Table 8-6	U.S. utility patents citing S&E literature, by patent assignee sector, article author sector, and patent issue year: 2013–16	PatentsView	USPTO utility patents
App. Table 8-6	USPTO patents granted in semiconductors, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in semiconductors, by region, country, or economy
Figure 8-7	USPTO patents granted, by selected country or economy of inventor: 2006–16	PatentsView	USPTO patents granted, by selected region/country/economy of inventor
App. Table 8-7	USPTO patents granted in telecommunications, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in telecommunications, by region, country, or economy
Figure 8-8	Patent activity index for selected technologies for the United States, EU, and Japan: 2014–16	PatentsView	Patent activity indexes for selected technologies for selected economies
App. Table 8-8	USPTO patents granted in digital communication, by region, country, or economy: 2000–2016	PatentsView	USPTO patents granted in digital communication, by region, country, or economy
Figure 8-9	Patent activity index of selected technologies for South Korea, Taiwan, and China: 2014–16	PatentsView	Patent activity indexes for selected technologies for selected economies
App. Table 8-9	USPTO patents granted in basic communication processes, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in basic communication processes, by region, country, or economy
App. Table 8-10	USPTO patents granted in IT methods for management, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in IT methods for management, by region, country, or economy
Figure 8-11	Citations of U.S. S&E articles in U.S. patents, by selected S&E article field: 2016	PatentsView	U.S. patents
App. Table 8-11	USPTO patents granted in medical technology, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in medical technology, by region, country, or economy
Figure 8-12	Citation of U.S. S&E articles in USPTO patents, by selected S&E field and article author sector: 2016	PatentsView	USPTO patents granted, by sector
App. Table 8-12	USPTO patents granted in biotechnology, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in biotechnology, by region, country, or economy
App. Table 8-13	USPTO patents granted in pharmaceuticals, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in pharmaceuticals, by region, country, or economy
App. Table 8-14	USPTO patents granted in basic material chemistry, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in basic material chemistry, by region, country, or economy
App. Table 8-15	USPTO patents granted in organic chemistry, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in organic chemistry, by region, country, or economy
App. Table 8-16	USPTO patents granted in macromolecular chemistry, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in macromolecular chemistry, by region, country, or economy
App. Table 8-17	USPTO patents granted in chemical engineering, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in chemical engineering, by region, country, or economy
App. Table 8-18	USPTO patents granted in measurement, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in measurement, by region, country, or economy
App. Table 8-19	USPTO patents granted in optics, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in optics, by region, country, or economy
App. Table 8-20	USPTO patents granted in analysis of biological materials, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in analysis of biological materials, by region, country, or economy
App. Table 8-21	USPTO patents granted in control, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in control, by region, country, or economy
App. Table 8-22	USPTO patents granted in materials and metallurgy, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in materials and metallurgy, by region, country, or economy
App. Table 8-23	USPTO patents granted in microstructural and nanotechnology, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in microstructural and nanotechnology, by region, country, or economy
App. Table 8-24	USPTO patents granted in surface technology and coating, by region, country, or economy: 2000–16	PatentsView	USPTO patents granted in surface technology and coating, by region, country, or economy
App. Table 8-25	Patent activity indexes for selected technologies for selected economies: 2014–16	PatentsView	Patent activity indexes for selected technologies for selected economies
App. Table 8-28	Citation of S&E articles in USPTO patents, by cited field and cited country and sector: 2013–16	PatentsView	USPTO patents

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