The document summarizes the American Competitiveness Initiative announced by President George W. Bush in 2006. The initiative commits $5.9 billion in 2007 and $137 billion over 10 years to strengthen the United States' position as a global leader in science and technology through increased investment in research and development, education reforms, and workforce training programs. Specifically, it aims to double funding for physical science and engineering research at agencies like the National Science Foundation and Department of Energy, improve K-12 math and science education, and provide training for 800,000 workers annually. The goal is to sustain American innovation, productivity, and economic competitiveness in the face of increasing challenges from abroad.
A Strategy for American Innovation - Invest in the Building Blocks of America...Obama White House
The document discusses investing in education, research, and infrastructure as the building blocks of American innovation. It argues that to compete globally and fuel economic growth, the US needs to have the most educated workforce, commit seriously to research and technology, and improve infrastructure like broadband internet. The document outlines plans to reform education, increase STEM education, invest heavily in research, develop high-speed rail and air traffic modernization, and create an infrastructure bank.
A Strategy for American Innovation: Appendix A: Invest in the Building Blocks...Obama White House
The document outlines the building blocks of American innovation proposed by the Obama administration, including: 1) improving STEM education through programs like Race to the Top and Educate to Innovate; 2) investing in fundamental research through initiatives like doubling funding for NSF, DOE, and NIST and achieving 3% of GDP investment in R&D; and 3) developing 21st century infrastructure for transportation, broadband access, and a nationwide high-speed wireless network.
This document discusses several key topics related to economics of education:
1) Recent UK policy has focused on broadening post-16 education options and vocational qualifications to improve skills.
2) Higher education has expanded due to increasing student numbers by reducing costs and shifting more costs to students.
3) Studies show graduates earn more on average than non-graduates, with some degree subjects conferring much higher earnings than others. Earnings premiums exist even after accounting for other factors.
This document presents a five-year education plan for Utah with the goal of improving economic prosperity through education. It discusses how communities with more college-educated residents have stronger economies and outlines objectives and funding to improve K-12 outcomes in math, reading and graduation rates and increase higher education degree attainment in Utah. The plan calls for over $500 million in strategic investments in teacher compensation, technology, counseling and other programs to help Utah rank higher nationally in key education metrics and build a skilled workforce.
This document discusses the economic foundations and benefits of education. It argues that education is an important investment for both individuals and countries. Educated workers are more productive and earn higher wages on average. Countries with more educated populations experience faster economic growth. Overall, the document emphasizes that education raises living standards, promotes equality, and is key to economic competitiveness and growth at both the individual and national levels.
This document discusses the economics of education and the rates of return to graduate education. It notes that studies show rates of return over 6%, which is the threshold used to determine if public investment is appropriate. However, future returns should determine individual investment decisions rather than past returns, as historic rates may not predict future returns accurately. Future returns are likely dependent on supply and demand of graduates and changes in skills needed. While graduate supply is increasing, demand is also rising due to technological changes requiring higher skills. The document also discusses market failures in education, signaling theory, and why education is often provided by the state.
This document discusses economics of education and analyzes the costs and benefits of education projects using cost-benefit analysis. It summarizes two randomized trials that show financial incentives can increase school enrollment and participation. Conditional cash transfers in Mexico increased primary/secondary enrollment by 3.6%, while free uniforms/textbooks in Kenya reduced dropouts by 15%. The document also presents an example cost-benefit analysis of a higher education project in Mauritius, finding the private rate of return for an engineering degree is 14.2% while the social rate of return is 18.7%. It concludes cost-benefit analysis can evaluate the feasibility of education projects by comparing discounted lifetime earnings to costs over an individual's working life.
Concepts and assumptions in the economics of educationRukhsana Murtaza
This document discusses key concepts in the economics of education. It defines economics as the study of how societies make choices about producing goods and services. The economics of education applies these economic principles to the process of education. Specifically, it studies human decision-making and behavior regarding schooling. While related, human capital theory focuses more narrowly on how individuals view education as an investment in their future earnings potential. The document also discusses concepts of efficiency in education, differentiating between technical efficiency related to output and inputs, and economic efficiency related to costs. Potential problems with efficiency in education systems are outlined as well.
A Strategy for American Innovation - Invest in the Building Blocks of America...Obama White House
The document discusses investing in education, research, and infrastructure as the building blocks of American innovation. It argues that to compete globally and fuel economic growth, the US needs to have the most educated workforce, commit seriously to research and technology, and improve infrastructure like broadband internet. The document outlines plans to reform education, increase STEM education, invest heavily in research, develop high-speed rail and air traffic modernization, and create an infrastructure bank.
A Strategy for American Innovation: Appendix A: Invest in the Building Blocks...Obama White House
The document outlines the building blocks of American innovation proposed by the Obama administration, including: 1) improving STEM education through programs like Race to the Top and Educate to Innovate; 2) investing in fundamental research through initiatives like doubling funding for NSF, DOE, and NIST and achieving 3% of GDP investment in R&D; and 3) developing 21st century infrastructure for transportation, broadband access, and a nationwide high-speed wireless network.
This document discusses several key topics related to economics of education:
1) Recent UK policy has focused on broadening post-16 education options and vocational qualifications to improve skills.
2) Higher education has expanded due to increasing student numbers by reducing costs and shifting more costs to students.
3) Studies show graduates earn more on average than non-graduates, with some degree subjects conferring much higher earnings than others. Earnings premiums exist even after accounting for other factors.
This document presents a five-year education plan for Utah with the goal of improving economic prosperity through education. It discusses how communities with more college-educated residents have stronger economies and outlines objectives and funding to improve K-12 outcomes in math, reading and graduation rates and increase higher education degree attainment in Utah. The plan calls for over $500 million in strategic investments in teacher compensation, technology, counseling and other programs to help Utah rank higher nationally in key education metrics and build a skilled workforce.
This document discusses the economic foundations and benefits of education. It argues that education is an important investment for both individuals and countries. Educated workers are more productive and earn higher wages on average. Countries with more educated populations experience faster economic growth. Overall, the document emphasizes that education raises living standards, promotes equality, and is key to economic competitiveness and growth at both the individual and national levels.
This document discusses the economics of education and the rates of return to graduate education. It notes that studies show rates of return over 6%, which is the threshold used to determine if public investment is appropriate. However, future returns should determine individual investment decisions rather than past returns, as historic rates may not predict future returns accurately. Future returns are likely dependent on supply and demand of graduates and changes in skills needed. While graduate supply is increasing, demand is also rising due to technological changes requiring higher skills. The document also discusses market failures in education, signaling theory, and why education is often provided by the state.
This document discusses economics of education and analyzes the costs and benefits of education projects using cost-benefit analysis. It summarizes two randomized trials that show financial incentives can increase school enrollment and participation. Conditional cash transfers in Mexico increased primary/secondary enrollment by 3.6%, while free uniforms/textbooks in Kenya reduced dropouts by 15%. The document also presents an example cost-benefit analysis of a higher education project in Mauritius, finding the private rate of return for an engineering degree is 14.2% while the social rate of return is 18.7%. It concludes cost-benefit analysis can evaluate the feasibility of education projects by comparing discounted lifetime earnings to costs over an individual's working life.
Concepts and assumptions in the economics of educationRukhsana Murtaza
This document discusses key concepts in the economics of education. It defines economics as the study of how societies make choices about producing goods and services. The economics of education applies these economic principles to the process of education. Specifically, it studies human decision-making and behavior regarding schooling. While related, human capital theory focuses more narrowly on how individuals view education as an investment in their future earnings potential. The document also discusses concepts of efficiency in education, differentiating between technical efficiency related to output and inputs, and economic efficiency related to costs. Potential problems with efficiency in education systems are outlined as well.
The Economic Value of Liberal EducationRobert Kelly
There is increasing demand from employers for college graduates with higher-level skills such as critical thinking, complex problem solving, and communication skills. As the global economy becomes more knowledge-based, employers require workers who can drive innovation. Recent surveys find that over 90% of employers prioritize these types of skills over a candidate's specific major. However, the supply of college-educated workers with these skills is not keeping pace with demand. Liberal arts education aims to develop broad intellectual skills and has been shown to lead to higher earning potential. Studies find the highest salaries are in jobs requiring skills like writing, reasoning, creativity, and social skills - core areas of liberal education.
Memo to Massachusetts is the cover story in our latest Vision Project Report, "Degrees of Urgency: Why Massachusetts Needs More College Graduates Now." It describes the current climate of Massachusetts public higher education, and the perfect storm of factors facing the state-- our economy's need for more college graduates, projected declines in the number of high school graduates, and the cumulative impact of historic underfunding of public higher education.
Learn more at www.mass.edu/visionproject
This document discusses the need to change the economic models of higher education institutions. It introduces NACUBO's Economic Models Project, which aims to help institutions assess and strengthen their long-term financial sustainability. The project will study how economic models have evolved and develop resources to facilitate analyzing existing models and possible changes. An advisory committee provides perspectives on the challenges, including rising costs, declining public funding, and sustainability. Institutional leaders must examine operations, prioritize activities, and make cultural and structural changes to ensure viability.
This document discusses the relationship between education and economic growth. It argues that education contributes to economic prosperity and development by stimulating human potential and acting as an essential component of the development process. When educational planning and resources are utilized efficiently, it can lead to growth. The document outlines how education promotes economic growth through investment in human capital and developing skilled manpower. It also examines how education systems have contributed differently to economic development in countries at varying levels of development.
This document discusses the economic foundations and benefits of education. It states that education increases employability, income levels, and tax revenue by raising standards of living. Countries emphasize developing education systems to produce workers for new industries like technology and science. Individuals with bachelor's degrees on average earn almost 3 times as much as high school dropouts. As the proportion of educated workers increases, a country's economy becomes more productive since educated workers can more efficiently perform literacy-based and complex tasks. Countries with more educated populations see faster economic growth than those with fewer educated workers. Highly educated earners contribute more to the economy through higher spending than less educated earners.
This document discusses the relationship between education and economic development in India. It acknowledges those who helped the author complete an academic writing course. The introduction defines education and literacy. The aims of education are outlined as making people competent to solve life's problems and driving socio-economic development. Education improves income equality by allowing low-income individuals to pursue economic opportunities. While India has large literacy programs, it still has the world's largest illiterate population and lower literacy rates than global averages. Suggestions to improve education include increasing funding, improving teacher salaries, and allowing foreign institutions to collaborate with Indian ones. The conclusion states that education is important for economic growth and development.
An Exploration of Programmes Offered by Universities in Lesotho and how they ...ijtsrd
Lesotho is an under developed economy and faces challenges of the HIV AIDS pandemic, political instability, high poverty levels, high unemployment rate, high public expenditure, declining revenues and inequalities. The country has got three universities. This study sought to analyse the programmes offered by the universities and how they contribute to the development of the national fiscal and establish gaps that need to be filled. The study is explorative and investigative and uses qualitative analysis of the data. Tawanda Mukurunge | Takura Bhila "An Exploration of Programmes Offered by Universities in Lesotho and how they Align with the National Strategic Development Plan (NSDP), Agenda 2063 and Strategic Development Goals (SDGs)" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-1 , December 2018, URL: http://www.ijtsrd.com/papers/ijtsrd20243.pdf
http://www.ijtsrd.com/management/other/20243/an-exploration-of-programmes-offered-by-universities-in-lesotho-and-how-they-align-with-the-national-strategic-development-plan-nsdp-agenda-2063-and-strategic-development-goals-sdgs/tawanda-mukurunge
This document discusses the relationship between education and economic development. It argues that a country's human capital, developed through education, is the real driver of economic growth more so than financial resources alone. It also notes that while expanding education is important, there must be a match between the skills developed and future job opportunities to avoid high unemployment. Finally, it outlines some problems with educational efficiency and access that can impact a country's economic development if not addressed.
Impact of Education on Socio-Economic Development of Rural People of BangladeshDr. Mokter Hossain
Rahman, S. M., & Hossain, M. M. (2006). Impact of Education on Socio-Economic Development of Rural People of Bangladesh. Bangladesh Education Journal, 5(1), 9-26. PDF File. Available online at: http://bafed.net/Files/2006_June.pdf#page=9
National Centre for Student Equity in Higher Education (NCSEHE) Visiting Professorial Fellow Sally Kift presents a seminar at Curtin University in October 2019.
This document discusses measuring inequality in education attainment. It argues that absolute measures are most appropriate for cross-country comparisons and tracking changes over time. Absolute Gini coefficients can compare education inequality between countries, while gains incidence curves show growth rates across the distribution of education attainment within a country over time. Using these absolute measures reveals that relative and absolute measures sometimes yield different conclusions about changes in inequality. The document advocates for absolute measures based on the theory that education returns are proportional to absolute differences in years of schooling.
Education and Economic Growth in Uganda: A cointegration approachPremier Publishers
This study examines the impact of the quantity of education on economic growth using gross enrolment ratio of primary, secondary and tertiary education as a proxy for the quantity of education. The annual data over the period 1985 to 2017 was used. Unit root tests, cointegration and causality tests were conducted following the Johansen and Juselius cointegration approach. The results indicate that the higher the education level attained the more likely the contribution to Uganda’s economic growth. The study variables were found to be integrated of order one using the ADF test for unit root. The long run causality test detected the existence of long run causality at all levels of education with GDP. The paper contributes to the ongoing debate as to whether education contributes to economic growth, and if it does which level is likely to contribute more to a country’s growth and under what conditions. The paper recommends the need for policy makers to provide an enriched curriculum that trains learners to be creative and productive right from primary education. The government is urged to increase the budget allocation to education as a percentage of GDP to at least 5.4% to ensure acquisition of the necessary education infrastructure to promote quality education.
The President's Fiscal Year 2014 Budget aims to strengthen the middle class through investments in areas like education, manufacturing, and infrastructure, while continuing to reduce the deficit. It includes $1.8 trillion in additional deficit reduction over 10 years, achieving a total of $4.3 trillion in deficit reduction. The budget prioritizes making critical investments to create jobs and grow the economy in a balanced way, through proposals like increasing access to early childhood education and job training programs.
The document proposes introducing a new compulsory subject in South African schools to address high youth unemployment. It would teach logic, creative thinking, problem solving and developing an innovative mindset. The goal is to equip youth with skills to become entrepreneurs and job creators rather than depend on the government. Over a year-long implementation period, the course curriculum would be developed and teachers trained, with the subject reaching all 11 million+ school-aged children in South Africa. The hoped for outcomes include new businesses, community responsibility, analytical problem solving, and students ambition to improve their country.
Exploration of pragmatic funding sources in funding higher education in nigeriaAlexander Decker
This document discusses funding challenges for higher education institutions in Nigeria and proposes exploring pragmatic funding sources. It notes that higher education is underfunded despite being important for national development. Government funding alone is insufficient given competing priorities. External factors like increasing student enrollment and inflation also influence education costs. The document recommends raising funds through means like generating revenue, donations, grants, tuition, and commercial ventures to supplement government support and ensure quality education. University administrators must effectively manage available resources and find alternative funding to sustain their institutions through financial difficulties.
Human capital refers to the knowledge, skills, and health embodied in individuals that enables personal economic productivity. Pedagogy shapes how teachers impart knowledge and skills to students. Investing in education is crucial for developing human capital, which drives economic growth, reduces inequality, and promotes social mobility. Well-educated populations are better able to invent, innovate, and compete globally. Prioritizing education and health has significant economic returns by increasing productivity and reducing mortality.
A central activity of the Innovation Institute is the production of the Massachusetts Technology Collaborative’s annual publication, The Index of the Massachusetts Innovation Economy.
Since 1997, the Index has provided users with a wealth of data and information for assessing the performance and progress of the Commonwealth’s innovation economy.
By means of 24 indicators, the Index offers a comprehensive view of several dimensions of the innovation ecosystem. Using a robust selection of data sources, the Index benchmarks Massachusetts against nine Leading Technology States throughout the United States to reveal relative strengths and weaknesses. With the guidance and advice of its Advisory Committee, the Innovation Institute revisits the indicators and framework annually to remain current with the evolving understanding of the Innovation Economy in order to provide timely insights into its strengths and weaknesses.
The Index also includes a special analysis section that is conceptualized as a forward-looking but directly relevant assessment and commentary on a critical issue in the Commonwealth and its innovation economy.
Human capital development and economic growth in nigeriaAlexander Decker
1. The study evaluates the relationship between human capital development and economic growth in Nigeria using data from 1977-2011.
2. The results of the analysis show there is a strong positive relationship between primary school enrollment, life expectancy, and economic growth (proxied by GDP). However, public expenditure on education has a negative impact on economic growth.
3. The findings suggest that investments in education and health can promote economic growth by increasing labor productivity. However, Nigeria needs to improve how it utilizes expenditures on education to achieve quality education and maximize its impact on the economy.
World innovation - Knowledge Competitiveness IndexASHOK BHATLA
This report provides a summary of the World Knowledge Competitiveness Index (WKCI) for 2008. It analyzes data on 145 regions across various knowledge economy benchmarks.
Some key findings include:
- United States regions like San Jose, Boston and San Francisco ranked highly, while Asian cities like Shanghai, Seoul and Bangalore ranked lower.
- Employment in IT, high-tech services and private R&D spending were significant predictors of competitiveness.
- Regions like San Jose and Stockholm scored high marks due to strong university systems, private sector involvement, and collaboration between industries, universities and government.
The Economic Value of Liberal EducationRobert Kelly
There is increasing demand from employers for college graduates with higher-level skills such as critical thinking, complex problem solving, and communication skills. As the global economy becomes more knowledge-based, employers require workers who can drive innovation. Recent surveys find that over 90% of employers prioritize these types of skills over a candidate's specific major. However, the supply of college-educated workers with these skills is not keeping pace with demand. Liberal arts education aims to develop broad intellectual skills and has been shown to lead to higher earning potential. Studies find the highest salaries are in jobs requiring skills like writing, reasoning, creativity, and social skills - core areas of liberal education.
Memo to Massachusetts is the cover story in our latest Vision Project Report, "Degrees of Urgency: Why Massachusetts Needs More College Graduates Now." It describes the current climate of Massachusetts public higher education, and the perfect storm of factors facing the state-- our economy's need for more college graduates, projected declines in the number of high school graduates, and the cumulative impact of historic underfunding of public higher education.
Learn more at www.mass.edu/visionproject
This document discusses the need to change the economic models of higher education institutions. It introduces NACUBO's Economic Models Project, which aims to help institutions assess and strengthen their long-term financial sustainability. The project will study how economic models have evolved and develop resources to facilitate analyzing existing models and possible changes. An advisory committee provides perspectives on the challenges, including rising costs, declining public funding, and sustainability. Institutional leaders must examine operations, prioritize activities, and make cultural and structural changes to ensure viability.
This document discusses the relationship between education and economic growth. It argues that education contributes to economic prosperity and development by stimulating human potential and acting as an essential component of the development process. When educational planning and resources are utilized efficiently, it can lead to growth. The document outlines how education promotes economic growth through investment in human capital and developing skilled manpower. It also examines how education systems have contributed differently to economic development in countries at varying levels of development.
This document discusses the economic foundations and benefits of education. It states that education increases employability, income levels, and tax revenue by raising standards of living. Countries emphasize developing education systems to produce workers for new industries like technology and science. Individuals with bachelor's degrees on average earn almost 3 times as much as high school dropouts. As the proportion of educated workers increases, a country's economy becomes more productive since educated workers can more efficiently perform literacy-based and complex tasks. Countries with more educated populations see faster economic growth than those with fewer educated workers. Highly educated earners contribute more to the economy through higher spending than less educated earners.
This document discusses the relationship between education and economic development in India. It acknowledges those who helped the author complete an academic writing course. The introduction defines education and literacy. The aims of education are outlined as making people competent to solve life's problems and driving socio-economic development. Education improves income equality by allowing low-income individuals to pursue economic opportunities. While India has large literacy programs, it still has the world's largest illiterate population and lower literacy rates than global averages. Suggestions to improve education include increasing funding, improving teacher salaries, and allowing foreign institutions to collaborate with Indian ones. The conclusion states that education is important for economic growth and development.
An Exploration of Programmes Offered by Universities in Lesotho and how they ...ijtsrd
Lesotho is an under developed economy and faces challenges of the HIV AIDS pandemic, political instability, high poverty levels, high unemployment rate, high public expenditure, declining revenues and inequalities. The country has got three universities. This study sought to analyse the programmes offered by the universities and how they contribute to the development of the national fiscal and establish gaps that need to be filled. The study is explorative and investigative and uses qualitative analysis of the data. Tawanda Mukurunge | Takura Bhila "An Exploration of Programmes Offered by Universities in Lesotho and how they Align with the National Strategic Development Plan (NSDP), Agenda 2063 and Strategic Development Goals (SDGs)" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-1 , December 2018, URL: http://www.ijtsrd.com/papers/ijtsrd20243.pdf
http://www.ijtsrd.com/management/other/20243/an-exploration-of-programmes-offered-by-universities-in-lesotho-and-how-they-align-with-the-national-strategic-development-plan-nsdp-agenda-2063-and-strategic-development-goals-sdgs/tawanda-mukurunge
This document discusses the relationship between education and economic development. It argues that a country's human capital, developed through education, is the real driver of economic growth more so than financial resources alone. It also notes that while expanding education is important, there must be a match between the skills developed and future job opportunities to avoid high unemployment. Finally, it outlines some problems with educational efficiency and access that can impact a country's economic development if not addressed.
Impact of Education on Socio-Economic Development of Rural People of BangladeshDr. Mokter Hossain
Rahman, S. M., & Hossain, M. M. (2006). Impact of Education on Socio-Economic Development of Rural People of Bangladesh. Bangladesh Education Journal, 5(1), 9-26. PDF File. Available online at: http://bafed.net/Files/2006_June.pdf#page=9
National Centre for Student Equity in Higher Education (NCSEHE) Visiting Professorial Fellow Sally Kift presents a seminar at Curtin University in October 2019.
This document discusses measuring inequality in education attainment. It argues that absolute measures are most appropriate for cross-country comparisons and tracking changes over time. Absolute Gini coefficients can compare education inequality between countries, while gains incidence curves show growth rates across the distribution of education attainment within a country over time. Using these absolute measures reveals that relative and absolute measures sometimes yield different conclusions about changes in inequality. The document advocates for absolute measures based on the theory that education returns are proportional to absolute differences in years of schooling.
Education and Economic Growth in Uganda: A cointegration approachPremier Publishers
This study examines the impact of the quantity of education on economic growth using gross enrolment ratio of primary, secondary and tertiary education as a proxy for the quantity of education. The annual data over the period 1985 to 2017 was used. Unit root tests, cointegration and causality tests were conducted following the Johansen and Juselius cointegration approach. The results indicate that the higher the education level attained the more likely the contribution to Uganda’s economic growth. The study variables were found to be integrated of order one using the ADF test for unit root. The long run causality test detected the existence of long run causality at all levels of education with GDP. The paper contributes to the ongoing debate as to whether education contributes to economic growth, and if it does which level is likely to contribute more to a country’s growth and under what conditions. The paper recommends the need for policy makers to provide an enriched curriculum that trains learners to be creative and productive right from primary education. The government is urged to increase the budget allocation to education as a percentage of GDP to at least 5.4% to ensure acquisition of the necessary education infrastructure to promote quality education.
The President's Fiscal Year 2014 Budget aims to strengthen the middle class through investments in areas like education, manufacturing, and infrastructure, while continuing to reduce the deficit. It includes $1.8 trillion in additional deficit reduction over 10 years, achieving a total of $4.3 trillion in deficit reduction. The budget prioritizes making critical investments to create jobs and grow the economy in a balanced way, through proposals like increasing access to early childhood education and job training programs.
The document proposes introducing a new compulsory subject in South African schools to address high youth unemployment. It would teach logic, creative thinking, problem solving and developing an innovative mindset. The goal is to equip youth with skills to become entrepreneurs and job creators rather than depend on the government. Over a year-long implementation period, the course curriculum would be developed and teachers trained, with the subject reaching all 11 million+ school-aged children in South Africa. The hoped for outcomes include new businesses, community responsibility, analytical problem solving, and students ambition to improve their country.
Exploration of pragmatic funding sources in funding higher education in nigeriaAlexander Decker
This document discusses funding challenges for higher education institutions in Nigeria and proposes exploring pragmatic funding sources. It notes that higher education is underfunded despite being important for national development. Government funding alone is insufficient given competing priorities. External factors like increasing student enrollment and inflation also influence education costs. The document recommends raising funds through means like generating revenue, donations, grants, tuition, and commercial ventures to supplement government support and ensure quality education. University administrators must effectively manage available resources and find alternative funding to sustain their institutions through financial difficulties.
Human capital refers to the knowledge, skills, and health embodied in individuals that enables personal economic productivity. Pedagogy shapes how teachers impart knowledge and skills to students. Investing in education is crucial for developing human capital, which drives economic growth, reduces inequality, and promotes social mobility. Well-educated populations are better able to invent, innovate, and compete globally. Prioritizing education and health has significant economic returns by increasing productivity and reducing mortality.
A central activity of the Innovation Institute is the production of the Massachusetts Technology Collaborative’s annual publication, The Index of the Massachusetts Innovation Economy.
Since 1997, the Index has provided users with a wealth of data and information for assessing the performance and progress of the Commonwealth’s innovation economy.
By means of 24 indicators, the Index offers a comprehensive view of several dimensions of the innovation ecosystem. Using a robust selection of data sources, the Index benchmarks Massachusetts against nine Leading Technology States throughout the United States to reveal relative strengths and weaknesses. With the guidance and advice of its Advisory Committee, the Innovation Institute revisits the indicators and framework annually to remain current with the evolving understanding of the Innovation Economy in order to provide timely insights into its strengths and weaknesses.
The Index also includes a special analysis section that is conceptualized as a forward-looking but directly relevant assessment and commentary on a critical issue in the Commonwealth and its innovation economy.
Human capital development and economic growth in nigeriaAlexander Decker
1. The study evaluates the relationship between human capital development and economic growth in Nigeria using data from 1977-2011.
2. The results of the analysis show there is a strong positive relationship between primary school enrollment, life expectancy, and economic growth (proxied by GDP). However, public expenditure on education has a negative impact on economic growth.
3. The findings suggest that investments in education and health can promote economic growth by increasing labor productivity. However, Nigeria needs to improve how it utilizes expenditures on education to achieve quality education and maximize its impact on the economy.
World innovation - Knowledge Competitiveness IndexASHOK BHATLA
This report provides a summary of the World Knowledge Competitiveness Index (WKCI) for 2008. It analyzes data on 145 regions across various knowledge economy benchmarks.
Some key findings include:
- United States regions like San Jose, Boston and San Francisco ranked highly, while Asian cities like Shanghai, Seoul and Bangalore ranked lower.
- Employment in IT, high-tech services and private R&D spending were significant predictors of competitiveness.
- Regions like San Jose and Stockholm scored high marks due to strong university systems, private sector involvement, and collaboration between industries, universities and government.
Il Regional Competitiveness Index, Indice di Competitività Regionale, è stato sviluppato dalla Commissione Europea (sulla base del già sperimentato Global Competitiveness Index introdotto dal World Economic Forum) per misurare i punti di forza e debolezza di ogni singola regione della Unione Europea.
TCI 2014 Investing in Comparative AdvantageTCI Network
This document discusses investing in comparative advantage through innovation-driven entrepreneurship and regional economic development strategies. It makes three key points:
1) Regions should focus on developing their unique entrepreneurial strengths by investing in areas of existing competitive advantage rather than trying to copy others. Successful regions have distinct innovative and entrepreneurial capacities.
2) Clusters of related industries are important drivers of regional economic performance. Industries within strong industry clusters experience higher growth and innovation. Clusters shape the commercialization of new technologies.
3) Regional economic strategies should leverage existing strengths and address weaknesses rather than adopting a "one-size-fits-all" approach. Strategies require prioritizing efforts and making difficult choices to develop a
The presentation of Gints Turlajs: "Competitiveness - what it is, where is Latvia?" On national and enterprise competitveness, the situation of Latvia, Global Competitiveness Index, Innovation Union Scoreboard, Doing Business rating, policies to improve competitiveness.
Financial Development Index And Global Competitiveness Index of the World Eco...Amir Jahangir
A presentation by Amir Jahangir on the Pakistan\'s performance on the Global Competitiveness Index and Financial Development Index of the World Economic Forum for 2012-2013
The document discusses the European Union's regional policy from 2007-2013. It allocates €347 billion to programs that aim to reduce economic and social disparities between regions. The funds support objectives like innovation, environment, accessibility and employment. For Spain, €28.9 billion is allocated through funds like the ERDF and ESF. The Balearic Islands receives €226.4 million for regional competitiveness and sustainable development priorities through various EU funding programs.
Pakistan's Performance on Global Competitiveness Index 2015-2016 of World Eco...Amir Jahangir
The document discusses the Global Competitiveness Report 2015-2016 published by the World Economic Forum. It provides an overview of the report, including the Global Competitiveness Index which assesses countries' competitiveness according to 12 pillars. It then analyzes Pakistan's rankings across various indicators, identifying areas where Pakistan has improved or deteriorated compared to the previous year's report. Key areas of improvement include macroeconomic stability, education quality, and technological readiness. Areas of deterioration include market dominance, effectiveness of anti-monopoly policy, and reliance on professional management.
This document provides an overview of strategic management and strategic competitiveness. It defines key terms like strategy, strategic intent, stakeholders, and the strategic management process. The document also discusses factors like globalization, technology, and the importance of developing resources and capabilities for achieving competitive advantage and above-average returns. It describes different models for strategy formulation and implementation, and achieving strategic competitiveness.
The document discusses organizational analysis using a SWOT framework. It describes SWOT as a simple but powerful tool for analyzing strengths, weaknesses, opportunities, and threats. The SWOT framework can be applied to both internal and external factors. Internally, it examines an organization's structure, planning, staffing, training, management information systems, programming capabilities, and financing. Externally, it considers factors like the institution's environment, prospective employers, competing organizations, and funding agencies. Conducting a thorough SWOT analysis can help identify an organization's comparative advantages.
Michael E. Porter Presentation at Porter Prize 2014Dr. Amit Kapoor
Porter Prize is named after Michael E Porter who is Professor at Harvard Business School, living legend and father of modern strategy field. The central idea of the Porter Prize is to propel companies to compete on the basis of value creation, innovation and strategy.
Institute for Competitiveness, India is an independent, international initiative centered in India, dedicated to enlarging and disseminating the body of research and knowledge on competition and strategy, pioneered over the last 25 years by Professor M.E. Porter of the Institute for Strategy and Competitiveness, Harvard Business School (ISC, HBS), USA. Institute for Competitiveness, India works in affiliation with ISC, HBS, USA to offer academic & executive courses, conduct indigenous research and provide advisory services to corporate and Government within the country. The institute studies competition and its implications for company strategy; the competitiveness of nations, regions & cities; suggests and provides solutions for social problems, Institute for Competitiveness, India brings out India City Competitiveness Report, India State Competitiveness Report, India Economic Quarterly, Journal of Competitiveness and funds academic research in the area of strategy & competitiveness.
The document is the 2013-2014 Global Competitiveness Report published by the World Economic Forum. It provides an overview of the report, which measures the competitiveness of nations and analyzes the factors driving their productivity and prosperity. The report was produced by the World Economic Forum's Global Competitiveness Network and edited by Klaus Schwab and Xavier Sala-i-Martín, with contributions from researchers around the world.
- The document summarizes Professor Michael Porter's presentation on competitive advantage and competitiveness at the national, state, and regional levels.
- Porter discusses how competitive advantage used to be thought of as residing inside companies, but now also resides in the locations companies are based in through cluster participation.
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Professor Michael E Porter: Social Progress Imperative and Development Strate...socprog
On September 5, 2013, Social Progress Imperative Chair Professor Michael E. Porter of Harvard Business School introduced the Social Progress Index and discussed national competitiveness to a standing room-only crowd of over 1,200 in Asunción.
The document outlines steps for conducting a SWOT analysis to assess the competitiveness of a locality. It provides instructions for groups to discuss their understanding of competitiveness, identify strengths, weaknesses, opportunities, and threats, and analyze how these factors impact the locality's strengths and competitiveness. The analysis involves marking strengths as unaffected, still a potential advantage if addressed, or unable to be pursued based on weaknesses, threats, and opportunities. The goal is to identify evident and potential comparative advantages.
This document provides an overview of strategic management concepts. It defines key terms like strategic competitiveness, competitive advantage, and above-average returns. It describes models for achieving returns, like utilizing resources and capabilities. It also outlines the strategic management process of analyzing internal/external environments to formulate strategies to implement and achieve strategic competitiveness.
Porter's theory of national competitive advantage argues that a nation provides the "home base" that allows firms to gain advantages. The theory identifies four determinants of competitive advantage: factor conditions, demand conditions, related and supporting industries, and firm strategy/rivalry. Government policy can influence competitiveness by supporting investment, innovation, and high domestic rivalry rather than protecting industries. Competitive advantage is dynamic and requires continuous upgrading and innovation to withstand erosion over time.
The document discusses Michael Porter's theory of national competitive advantage known as the "Diamond of National Advantage". The theory proposes that four attributes influence competitive advantage: factor conditions, demand conditions, related and supporting industries, and firm strategy/rivalry. It argues that a nation's competitiveness depends on how these attributes interact and reinforce each other in a system. Specialized factors, sophisticated buyers, related industries, and domestic rivalry are especially important for sustaining competitive advantage over time.
Value chain analysis was first suggested by Michael Porter in 1995 as a way to present how value is constructed for the end customer. It can be used to increase competitiveness, reduce costs, and improve market share, ultimately improving overall profitability. Value chain analysis involves examining a firm's internal costs and processes that differentiate its products or services from competitors, as well as vertical linkages along the entire supply chain from suppliers to end customers. Firms can use value chain analysis along with frameworks like industry structure analysis, core competencies analysis, and segmentation analysis to develop strategies to enhance competitiveness.
A Strategy for American Innovation - Executive SummaryObama White House
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Since taking office, President Obama has taken historic steps to lay the foundation for the innovation economy of the future. The Obama Innovation Strategy builds on well over $100 billion of Recovery Act funds that support innovation, additional support for education, infrastructure and others in the Recovery Act and the President’s Budget, and novel regulatory and executive order initiatives. It seeks to harness the inherent ingenuity of the American people and a dynamic private sector to ensure that the next expansion is more solid, broad-based, and beneficial than previous ones. It focuses on critical areas where sensible, balanced government policies can lay the foundation for innovation that leads to quality jobs and shared prosperity.
Research and innovation is defined as extracting economic value from knowledge through generating, developing, and implementing new ideas for improved products, processes, and services. University research plays a key role in innovation as firms supported by university research are more innovative. Strategies to promote research and innovation focus on increasing public investment in R&D, expanding graduate students, increasing applied research funding, attracting technology companies, and demonstrating technologies. Research and innovation generates short, medium, and long-term benefits for society through direct economic activity, supporting researchers, contributing to education and skills, developing linkages, and expanding the knowledge base.
The Power of Place: A National Strategy for Building Communities of InnovationEileen Walker
The document proposes a national strategy for building America's communities of innovation by strengthening existing and developing new research parks, technology incubators, universities, and federal labs. It recommends establishing American Innovation Zones that provide economic incentives and regulatory reforms to accelerate their development. Fully funding the America COMPETES Act and expanding the R&D tax credit for companies located in these zones are also suggested as ways to maintain U.S. competitiveness in innovation.
One of the factors behind the Philippines' consistency as a high-growth country is the innovativeness of the Filipino people, which is backstopped by Filipinnovation, the National Innovation System.
A Strategy for American Innovation - Promote Market-Based InnovationObama White House
The document discusses several ways the Obama Administration aims to promote market-based innovation in the United States. It outlines plans to make the research and experimentation tax credit permanent to incentivize private sector innovation. It also discusses supporting intellectual property rights and regional innovation clusters. The administration seeks to increase access to capital for entrepreneurs and new businesses through initiatives like Startup America. The overall goal is to accelerate business innovation, promote competitive markets, and ensure the U.S. remains the best place for high-growth entrepreneurship.
The document discusses the need for STEM education reform in the United States to better prepare students for careers in a global, technology-driven economy. It notes declining US competitiveness in STEM fields and outlines recommendations from reports to improve K-12 math and science education, support for research, and developing a skilled STEM workforce. The goal is to transform education from an obsolete model to one focused on problem-solving, collaboration, and ensuring all students are ready for college or high-skill careers.
America has long been a nation of innovators. The United States is the birthplace of the Internet, which today connects three billion people around the world. American scientists and engineers sequenced the human genome, invented the semiconductor, and sent humankind to the moon. And America is not done yet. For an advanced economy such as the United States, innovation is a wellspring of economic growth. While many countries can grow by adopting existing technologies and business practices, America must continually innovate because our workers and firms are often operating at the technological frontier. Innovation is also a powerful tool for addressing our most pressing challenges as a nation, such as enabling more Americans to lead longer, healthier lives, and accelerating the transition to a low-carbon economy.
This document outlines a strategy for American innovation put forth by the National Economic Council and Office of Science and Technology Policy. The strategy has six key elements: 1) investing in the building blocks of innovation like research and education, 2) fueling private sector innovation through policies like tax credits, 3) empowering innovators, 4) creating jobs through areas like advanced manufacturing, 5) catalyzing breakthroughs in national priorities like health, and 6) delivering innovative government. The strategy aims to sustain the innovation ecosystem and ensure its benefits are shared by all Americans.
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This document provides an overview of the Obama Administration's Strategy for American Innovation. The strategy has six key elements: 1) investing in the building blocks of innovation, 2) fueling private sector innovation, 3) empowering innovators, 4) creating jobs and economic growth, 5) catalyzing breakthroughs in national priorities, and 6) delivering innovative government. It outlines various initiatives across government to strengthen the innovation ecosystem through funding research, education, infrastructure, and promoting public-private partnerships and commercialization of federally-funded research. The overall goals are to drive economic growth, address societal challenges, and ensure shared prosperity through a whole-of-government approach to innovation policy.
This document summarizes an NSF presentation about funding opportunities for community colleges. It discusses several NSF programs that support STEM education projects involving community colleges, such as the Advanced Technological Education (ATE) program, which has provided over $650 million for community college technician education programs since 1994. It also briefly describes the goals and application processes for additional programs like STEM Talent Expansion Program (STEP), NSF Scholarships in Science, Technology, Engineering, and Mathematics (S-STEM), and Transforming Undergraduate Education in STEM (TUES). The presentation emphasizes starting the proposal process early and following all guidelines to submit a compliant and competitive application.
Ahead of the provincial elections on May 9, we would like to help our community get a better sense of the three BC political party platforms to advance the tech sector. Here’s a summary of key tech-related promises in the three platforms as it relates to BCTECH Association’s policy pillars: talent, capital, markets, scale and competitiveness. Vote for BC. Vote for Tech.
Discussion on economic aspects of education has acquired great significance in education research during the new millennium earmarked as Knowledge Economy. Education for the Knowledge Economy (EKE) refers to efforts at production of the highly skilled and flexible human capital needed to compete effectively in today’s dynamic global markets. Experiences of last one decade in the IT enabled BPO sector has proved India’s ability to produce and use knowledge as a major factor in economic development and has proved to be critical to India’s comparative advantage. Economists have recognized importance of EKE to develop a workforce that is well-trained and capable of generating knowledge-driven economic growth.
Economics of Education analyzes both what determines or creates education and what impact education has on individuals and the societies and economies in which they live. Historically a great deal of emphasis has been placed on determining outcomes to educational investment and the creation of human capital. The primary mission of the economics of education group is to identify opportunities for improved efficiency, equity, and quality of education and promote effective education reform processes, to enhance knowledge of what drives education outcomes and results; to better understanding how to strengthen the links of education systems with the labour market; and to build and support a network of education economists for education policy planning and evolve structures and mechanisms for implementation.
Jason Rao - A Presidential Directive for Science and Technology EngagementCRDF Global
Dr. Jason Rao, senior policy advisor, Office of Science and Technology Policy, Executive Office of the President presents the great emphasis placed by the current Administration on international science and technology engagement; at the October 19, 2010 Science Diplomacy Boot Camp for Journalists.
This document discusses research and innovation in India. It notes that India has historically struggled in research compared to other countries. It proposes several recommendations to promote research in India including importing latest equipment, making admission to research institutions more flexible, providing more support for top researchers, only funding projects making progress, and increasing government funding for research. It emphasizes the need for government, researchers, and youth to work together to improve the research situation in India.
This document summarizes the National Education Technology Plan from 2010. The plan calls for a revolutionary transformation of the American education system through the use of technology. It presents a model with five key areas: learning, assessment, teaching, infrastructure, and research/development. The goal is to engage and empower students with personalized learning experiences, use technology to better measure what students learn, help teachers better utilize data and resources, ensure access to technology infrastructure, and conduct research to drive further innovation. Overall, the plan aims to improve student learning and graduation rates through the strategic use of educational technology.
This document summarizes the National Education Technology Plan from 2010. The plan calls for a revolutionary transformation of the American education system through the use of technology. It presents a model with five key areas: learning, assessment, teaching, infrastructure, and research/development. The goal is to engage and empower students with personalized learning experiences, use technology to better measure what students learn, help teachers better utilize data and resources, ensure access to technology infrastructure, and conduct research to drive further innovation. Overall, the plan aims to improve student learning and graduation rates through the strategic use of educational technology.
Remarks to Public Forum on National Health IT PolicyBrian Ahier
On February 4, 2010 there was a public forum on the rollout of national HIT policy under HITECH, including "meaningful use," EHR certification, and HIE. Aneesh Chopra, at the time serving as Chief Technology Office (CTO) of the United States made some remarks.
The document discusses the global challenges of fostering innovation and economic growth in a changing world. It notes that leading countries are responding by investing heavily in universities, research funding, and public-private partnerships. However, the rise of new competitors like China and India, who are rapidly growing their research and development expenditures, poses new challenges for the US and EU to remain innovative global leaders. The document advocates for increased cooperation between the US and EU to collectively address this global innovation imperative through competitive policy incentives and mutual learning.
The document proposes solutions to improve India's research and innovation ecosystem by increasing spending on research and development, improving education quality, and establishing new organizations. It notes that India currently ranks low on innovation indices and research output despite its large population and economy. The key solutions proposed are forming a Committee for Research and Exploration (CRE) and Network for Citizens with Scientific Acumen (NCSA) to fund research projects and enable collaboration, and remodelling the education system to focus on skills and make education more accessible through technology and private investment.
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This document lists 8 references used in another work. The references are books published between 2012 and 2015 that discuss topics such as the relationship between the public and private sectors, the impact of technology on jobs, issues with the sharing economy and capitalism, tax policy, corruption, and national security.
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South Pacific Regional Fisheries Management Organisation (SPRFMO)
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American Competitiveness Initiative:Leading the World in Innovation aci06-booklet
1.
2. Domest ic Pol icy Council
Office of Science and Technol ogy Pol icy
Febr uar y 2006
AMERICAN
COMPETITIVENESS
INITIATIVE
3. My fellow Americans,
One of the great engines of our growing economy is our Nation’s capacity to innovate. Through
America’s investments in science and technology, we have revolutionized our economy and changed the
world for the better. Groundbreaking ideas generated by innovative minds in the private and public
sectors have paid enormous dividends—improving the lives and livelihoods of generations of Americans.
To build on our successes and remain a leader in science and technology, I am pleased to announce the
American Competitiveness Initiative. The American Competitiveness Initiative commits $5.9 billion in
FY 2007 to increase investments in research and development, strengthen education, and encourage
entrepreneurship. Over 10 years, the Initiative commits $50 billion to increase funding for research and
$86 billion for research and development tax incentives. Federal investment in research and development
has proved critical to keeping America’s economy strong by generating knowledge and tools upon which
new technologies are developed. My 2007 Budget requests $137 billion for Federal research and
development, an increase of more than 50 percent over 2001 levels. Much of this increased Federal
funding has gone toward biomedical research and advanced security technologies, enabling us to improve
the health of our citizens and enhance national security. We know that as other countries build their
economies and become more technologically advanced, America will face a new set of challenges. To
ensure our continued leadership in the world, I am committed to building on our record of results with
new investments—especially in the fields of physical sciences and engineering. Advances in these areas
will generate scientific and technological discoveries for decades to come.
The bedrock of America’s competitiveness is a well-educated and skilled workforce. Education has
always been a fundamental part of achieving the American Dream, and the No Child Left Behind Act is
helping to ensure that every student receives a high-quality education. Accountability and high standards
are producing positive results in the classroom, and we can do more to provide American students and
workers with the skills and training needed to compete with the best and brightest around the world.
Building on our successes, the American Competitiveness Initiative funds increased professional
development for teachers, attracts new teachers to the classroom, develops research-based curricula, and
provides access to flexible resources for worker training.
As we increase investments in research and development, strengthen education, and provide more flexible
training for workers, we continue to keep taxes low, avoid unnecessary and burdensome regulations,
promote free and fair trade, maintain the integrity of our markets, and foster entrepreneurship. Over the
past five years, my Administration has lowered taxes to create more jobs, opened new markets to U.S.
products and services, created incentives for private sector innovation, and protected intellectual property
rights.
America’s economy is strong and getting stronger. My 2007 Budget recognizes the importance of
innovation to our economic future—fostering and encouraging all the components that make our
economic engine the envy of the world. In partnership with the private sector, State and local
governments, and colleges and universities, the American Competitiveness Initiative will promote new
levels of educational achievement and economic productivity. With the right policies, we will maintain
America's competitive edge, we will create more jobs, and we will improve the quality of life and
standard of living for generations to come.
GEORGE W. BUSH
THE WHITE HOUSE
February 2, 2006
4. 1
OVERVIEW
Keeping our competitive edge in the world economy requires focused policies that lay the
groundwork for continued leadership in innovation, exploration, and ingenuity. America's
economic strength and global leadership depend in large measure on our Nation’s ability to
generate and harness the latest in scientific and technological developments and to apply these
developments to real world applications. These applications are fueled by: scientific research,
which produces new ideas and new tools that can become the foundation for tomorrow’s
products, services, and ways of doing business; a strong education system that equips our
workforce with the skills necessary to transform those ideas into goods and services that improve
our lives and provide our Nation with the researchers of the future; and an environment that
encourages entrepreneurship, risk taking, and innovative thinking. By giving citizens the tools
necessary to realize their greatest potential, the American Competitiveness Initiative (ACI) will
help ensure future generations have an even brighter future.
Sustained scientific advancement and innovation are key to maintaining our competitive edge,
and are supported by a pattern of related investments and policies, including:
• Federal investment in cutting-edge basic research whose quality is bolstered by merit
review and that focuses on fundamental discoveries to produce valuable and marketable
technologies, processes, and techniques;
• Federal investment in the tools of science—facilities and instruments that enable
discovery and development—particularly unique, expensive, or large-scale tools beyond
the means of a single organization;
• A system of education through the secondary level that equips each new generation of
Americans with the educational foundation for future study and inquiry in technical
subjects and that inspires and sustains their interest;
• Institutions of higher education that provide American students access to world-class
education and research opportunities in mathematics, science, engineering, and
technology;
• Workforce training systems that provide more workers the opportunity to pursue the
training and other services necessary to improve their skills and better compete in the 21st
century.
5. 2
• Immigration policies that will continue to enable the United States to attract the best and
brightest scientific minds from around the world to work alongside the best and brightest
American scientists;
• Private sector investment in research and development that enables the translation of
fundamental discoveries into the production of useful and marketable technologies,
processes, and techniques;
• An efficient system that protects the intellectual property resulting from public and
private sector investments in research; and
• A business environment that stimulates and encourages entrepreneurship through free and
flexible labor, capital, and product markets that rapidly diffuse new productive
technologies.
An important element of the American Competitiveness Initiative is Federal investment in
research and development (R&D). Under President Bush, this investment has increased by more
than 50 percent to $137 billion—the largest sustained increase since the Apollo space program in
the early 1960’s. Similarly, President Bush and Congress have provided historic funding
increases for K-12 education over the last five years and have successfully instituted critical
policy reforms as a part of the President’s No Child Left Behind Act.
This Administration has
consistently pursued policies
and investments that reflect the
need for a vigorous science and
technology enterprise, as
outlined by the National Science
and Technology Council’s 2004
report, Science for the 21st
Century, and by the President’s
2004 plan to inspire A New
Generation of American
Innovation.
Recognizing the critical
importance of science and technology to America’s long-term competitiveness and building on
these previous efforts, President Bush introduced the American Competitiveness Initiative, an
aggressive, long-term approach to keeping America strong and secure by ensuring that the United
States continues to lead the world in science and technology, in his State of the Union Address on
January 31, 2006.
This $5.9 billion ACI includes $1.3 billion in new Federal funding and an additional $4.6 billion
in R&D tax incentives. Specifically, the ACI:
• Doubles, over 10 years, funding for innovation-enabling research at key Federal agencies
that support high-leverage fields of physical science and engineering: the National
Science Foundation, the Department of Energy’s Office of Science, and the National
Institute for Standards and Technology within the Department of Commerce;
American Competitiveness Initiative Goals:
300 grants for schools to implement research-based math
curricula and interventions
10,000 more scientists, students, post-doctoral fellows, and
technicians provided opportunities to contribute to the
innovation enterprise
100,000 highly qualified math and science teachers by
2015
700,000 advanced placement tests passed by low-income
students
800,000 workers getting the skills they need for the jobs of
the 21st
century
6. 3
• Modernizes the Research and Experimentation tax credit by making it permanent and
working with Congress to update its provisions to encourage additional private sector
investment in innovation;
• Strengthens K-12 math and science education by enhancing our understanding of how
students learn and applying that knowledge to train highly qualified teachers, develop
effective curricular materials, and improve student learning;
• Reforms the workforce training system to offer training opportunities to some 800,000
workers annually, more than tripling the number trained under the current system;
• Increases our ability to compete for and retain the best and brightest high-skilled workers
from around the world by supporting comprehensive immigration reform that meets the
needs of a growing economy, allows honest workers to provide for their families while
respecting the law, and enhances homeland security by relieving pressure on the borders.
7. 4
LEADING THE WORLD IN INNOVATION
Scientific and Technological Foundations of Economic Growth
During the past five years, the U.S. economy has shown remarkable vitality and resilience.
The current economic expansion is steady and strong, with GDP growing at an annual rate of
over 3.5 percent for three years. After-tax incomes are rising, household net worth is at an all-
time high, and the unemployment rate is low. Meanwhile, inflation remains in check, and we
have had extraordinary and
sustained productivity growth—
averaging a 3.4 percent annual
rate for the past half-decade.
The American economy today
is the envy of the world.
Our prosperity is no accident.
It is the product of risk-takers,
innovators, and visionaries. We
owe our global leadership in
large measure to our willingness
to build an economy and culture
that welcomes and encourages
innovation and flexible, open
markets. By increasing U.S.
innovation capacity through the
bolstering of our world-class
R&D enterprise and through
investments in our education
and information infrastructure,
we have achieved new
discoveries and breakthroughs that drive productivity, grow the economy, and solve important
societal problems.
Research pays off for our economy. It leads to breakthroughs that inspire new products and have
spawned entire industries. In fact, economists estimate that as much as half of post-World War II
economic growth is due to R&D-fueled technological progress. Today’s revolutionary
technologies and many of our most popular consumer products have roots deep in basic and
applied research. Long before there were computers or the Internet, scientists were unlocking the
secrets of lasers, semiconductors, and magnetic materials upon which today’s advanced
applications were built. This enterprise was fueled in large part by Federal investment in basic
research that was necessary but not necessarily profitable for the private sector to undertake over
the long term.
8. 5
Global Science and Technology:
Status and Outlook
By nearly every relevant metric,
the U.S. leads the world in
science and technology. With
only about five percent of the
world’s population, the U.S.
employs nearly one-third of all
scientists and engineers and
accounts for approximately one-
third of global R&D spending
(U.S. R&D spending of over $300
billion is as much as the rest of
the G-8 nations combined). Chart
1 illustrates that, even after
adjusting for population and size
of the economy, the U.S. is
among the world leaders in R&D spending and the number of scientists and engineers.
President Bush’s FY07 Budget brings the total Federal R&D investment to a record $137 billion,
an increase of more than 50 percent over the 2001 level. The conduct of Federal R&D,
historically measured in constant dollar outlays, is also at a record high level in inflation-adjusted
terms (Chart 2). Funding for basic research alone has increased over 32 percent from 2001-2007.
More importantly, R&D funding increases since 2001 reversed a decade-long trend of flat or
declining Federal investment in scientific research and development.
While the U.S. is supporting science at unprecedented levels, the rest of the world is not standing
still. Following the successful U.S. model, many countries are working hard to build their own
innovation capacity by pouring resources into their scientific and technological infrastructure.
This competitive drive is a positive development for the world—accelerating worldwide
economic growth and trade, contributing to greater peace and stability, and raising the standard of
living for many people. But because of these trends, science, technology, and innovation now
move at a faster pace, and the ability of foreign nations to compete with America in the
increasingly integrated global economy is much greater.
The enhanced innovation capacity of our economic competitors makes it increasingly important
to make our own economy more flexible and responsive. This will require us to pursue pro-
growth economic policies—policies that have been an ongoing priority of the Bush
Administration. It also requires a long-term vision to strengthen Federal support for the Nation’s
innovation enterprise. As a result, President Bush has called for the integrated package of
investments and policies in the ACI.
10. 7
AMERICAN COMPETITIVENESS INITIATIVE
RESEARCH
The centerpiece of the American Competitiveness Initiative is President Bush's strong
commitment to double investment over 10 years in key Federal agencies that support basic
research programs in the physical sciences and engineering.
Physical sciences and engineering include high-leverage areas of research that develop and
advance knowledge and
technologies that are used by
scientists in nearly every other
field. President Bush plans to
double, over 10 years,
investments in innovation-
enabling physical science and
engineering research at the
National Science Foundation
(NSF), the Department of
Energy’s Office of Science
(DoE SC), and the Department
of Commerce’s National
Institute of Standards and
Technology (NIST) core
activities. In addition to the
doubling efforts at these three
agencies, the President’s FY
2007 Budget also makes other
similarly high-leverage
programs a significant priority,
such as basic and applied
research at the Department of
Defense (DoD).
In 2007, the ACI proposes
overall funding increases for
NSF, DoE SC, and NIST of $910 million, or 9.3 percent, above FY 2006 (Figure 1). To achieve
doubling within ten years, overall annual increases for these ACI research agencies will average
roughly 7 percent. This amounts to a total of $50 billion in new investments in high-leverage,
innovation-enabling fundamental research that will underpin and complement shorter-term
research performed by the private sector.
Past research has spawned such technologies as personal computers, the Internet, fiber optics, bar
codes, medical imaging devices, balloon catheters, hearing aids, laser eye surgery, air bags, and
global positioning devices and satellite telecommunications systems. And in every case, research
funding at NSF, DoE SC, or NIST core (consisting of NIST lab research and construction
accounts), has been essential to proceed to the point at which the private sector recognizes a
potentially marketable product and invests in its development. These agencies make research
decisions based on systematic planning and merit-review allocation processes designed to
11. 8
identify and support the most promising ideas and the teams most likely to succeed in carrying
them out. As a result of these processes, grants and in-house research from these agencies have a
strong track record of leading to scientific publications, patents, and eventually to new products
and technologies.
Because the sciences—and especially their applications—are interconnected, research in physical
science and engineering provides tools and technologies for all other fields. Ultimately, of
course, everything is made of atoms and their sub-components. As such, basic techniques for the
imaging, manipulation,
and simulation of matter
at the atomic scale are of
value for applications in
every field. To use the
information in the human
genome, for example, it is
necessary to understand
the functions of the
proteins whose blueprints
are encoded in DNA, a
feat that is enabled by
tools that visualize the
immensely complex
structure of these building
blocks of life. And those
tools—bright x-ray
sources and powerful
computation, for
example—are products of
physical science and
engineering. Important
opportunities for
improving these powerful
tools exist today, and
sustained leadership in
science and technology
for innovation demands
that we seize them.
12. 9
ACI RESEARCH AGENCIES
The National Science Foundation (NSF) is the primary source of support for university and
academic research in the physical sciences, funding potentially transformative basic research in
areas such as nanotechnology, advanced networking and information technology, physics,
chemistry, materials science, mathematics, and engineering. It is well regarded for management
of funding through a competitive, peer-reviewed process. The NSF funding derived from the
ACI initiative is expected to support as many as 500 more research grants in 2007 and provide
opportunities for upwards of 6,400 additional scientists, students, post-doctoral fellows, and
technicians to contribute to the innovation enterprise.
13. 10
The Department of Energy's Office of Science (DoE SC) supports scientific studies and
infrastructure for a wide range of R&D related to economically significant innovations including
high-end computing and advanced networking, nanotechnology, biotechnology, energy sources,
and other materials science research. It is the principal supporter of world-class Federal research
facilities, providing scientists with the necessary tools to advance scientific understanding for
innovation and discovery. In addition to making possible support for approximately 2,600 more
researchers in FY 2007 than in FY 2006, the ACI provides for the construction of a number of
cutting-edge scientific research tools with direct implications for economically relevant R&D,
including the world's most powerful civilian supercomputer and an x-ray light source user facility
with world-leading capabilities to study materials, chemicals, and biological matter at the scale of
an individual atom. Additional DoE SC facilities supported by the ACI include: completion of
the Centers for Integrated Nanotechnology and Functional Nanomaterials; support for domestic
fusion facilities underpinning the future ITER nuclear fusion project; and maximum capacity
operation of the full suite of major x-ray light source and neutron research facilities.
The Department of Commerce’s National Institute of Standards and Technology (NIST) is a
high-leverage Federal research agency that performs high-impact basic research and supports the
successful technical translation and everyday use of economically significant innovations such as
14. 11
new materials and processes; electronics, information technologies, and advanced computing
processes; advanced manufacturing integration, biotechnologies, and new energy sources such as
hydrogen; and nanotechnology. NIST also plays a critical role in supporting standards-
development activities that are used by the private sector and government agencies. In FY 2007,
NIST will seek to focus 3,900 scientists and engineers from government, industry, and
universities—an increase of 600 researchers over FY 2006—on meeting the Nation’s most urgent
measurement science and standards needs to speed innovation and improve U.S. competitiveness.
In addition to the high-leverage research in NSF, DoE SC, and NIST core, other Federal agencies
fund important research that makes valuable contributions toward the goals of the ACI. One
example is the Department of Defense (DoD), which provides strong support for the physical
sciences and engineering, including projects with both commercial and military applications
(“dual-use” technologies). Past DoD research has resulted in revolutionary technological
capabilities such as radar, digital computers, wireless mobile communications, lasers, fiber optics,
composite materials, the Internet (and other “packet switched” networks), and satellite
navigation. The President’s FY 2007 Budget includes $5.9 billion for DoD basic and applied
research, $440 million, or eight percent, more than requested in the FY 2006 Budget. (The
Defense Advanced Research Projects Agency (DARPA) shares in these programs, as well as
some more advanced technology development projects beyond research.) Although the FY 2007
DoD research budget is less than the enacted FY 2006 level, that is only the case due to the
removal of hundreds of millions of dollars in annual earmarks.
Maximizing the Effectiveness of ACI Research
The ACI enhances basic research programs in priority agencies that employ best practices for
identifying and funding the most promising research ideas. Careful planning, strong technical
advisory mechanisms, and systematic merit-based peer review are acknowledged methods for
optimizing research success. The idea is not to introduce entirely new government programs, but
to increase fundamental research capacity in response to growing numbers of outstanding and
novel proposals from the Nation's technical community. It is imperative for the optimal
disposition of research funds to uphold these principles in the Federal budget and appropriations
process. Earmarking—the assignment of science funding through the legislative process for use
by a specific organization or project—is rarely the most effective use of taxpayer funds. In the
case of science programs, the practice signals to potential researchers that there are acceptable
alternatives to creating quality research proposals for merit-based consideration, including the use
of political influence or appeals to parochial interests. The rapidly growing level of legislatively
directed research funds undermines America's research productivity. The Administration
commends Congress for having taken measures to protect NSF and the National Institutes of
Health from this practice. To maximize the effectiveness of ACI research, the President
encourages the Congress and the academic community to resist securing research and facilities
funding through earmarks, particularly in the ACI agencies.
15. 12
GOALS FOR ACI RESEARCH
While expected new innovations are impossible to predict with specificity, certain capabilities
and technology platforms can be anticipated as a result of the ACI:
• World-class capability and capacity in nanofabrication and nanomanufacturing that will
help transform current laboratory science into a broad range of new industrial
applications for virtually every sector of commerce, including telecommunications,
computing, electronics, health care, and national security (NSF, DoE, NIST)
• Chemical, biological, optical, and electronic materials breakthroughs critical to cutting-
edge research in nanotechnology, biotechnology, alternative energy, and the hydrogen
economy through essential infrastructure such as the National Synchrotron Light
Source II and the NIST Center for Neutron Research (DoE, NIST)
• World-leading high-end computing capability (at the petascale) and capacity, coupled
with advanced networking, to enable scientific advancement through modeling and
simulation at unprecedented scale and complexity across a broad range of scientific
disciplines and important to areas such as intelligent manufacturing, accurate weather and
climate prediction, and design of safe and effective pharmaceuticals (NSF, DoE)
• Overcoming technological barriers to the practical use of quantum information
processing to revolutionize fields of secure communications, as well as quantum
mechanics simulations used in physics, chemistry, biology, and materials science (DoE,
NIST, NSF)
• Overcoming technological barriers to efficient and economic use of hydrogen, nuclear,
and solar energy through new basic research approaches in materials science (DoE, NSF,
NIST)
• Addressing gaps and needs in cyber security and information assurance to protect our IT-
dependent economy from both deliberate and unintentional disruption, and to lead the
world in intellectual property protection and control (NSF, NIST)
• Improvement of sensor and detection capabilities that will result in world-leading
automation and control technologies with a broad range of applications important to areas
such as national security, health care, energy, and manufacturing (NSF)
• Development of manufacturing standards for the supply chain to advance and accelerate
the development and integration of more efficient production practices (NIST)
• Enhanced response to international standards challenges, which impact U.S.
competitiveness and limit export opportunities for American businesses by acting as
technical barriers to trade (NIST)
• Accelerated work on advanced standards for new technologies (NIST)
• Advances in materials science and engineering to develop technologies and standards for
improving structural performance during hazardous events such as earthquakes and
hurricanes (NIST, NSF)
• Improving capacity, maintenance, and operations of DoE and NIST labs
16. 13
R&D TAX INCENTIVES
As part of the American
Competitiveness Initiative, the
President continues to support—
for the sixth straight year—
making the Research and
Experimentation (R&E) Federal
tax credit permanent. While
temporary extensions of the credit
have been enacted in recent years,
a permanent R&E credit would
enable companies to have
certainty in their tax planning and
therefore be bold in their R&D
investment strategy. The
President is also committed to
working with Congress to
simplify and modernize the credit
to make it even more effective
and efficient at encouraging
private sector innovation.
With an overall R&D effort of
over $200 billion, the private
sector accounts for approximately
two-thirds of all U.S. R&D
spending. Tax policy is used to
encourage this research because
corporate-funded R&D targets
commercial opportunities, helping
to turn knowledge and ideas
generated as a result of basic and
applied research into products and
processes that businesses and
consumers demand. The R&E tax
credit helps to increase this
spending by reducing the effective
cost of R&D investments to
businesses. Economic evidence
suggests that the credit has a
significant positive impact on
private sector research activity. A
recent study found that the current
tax credit is claimed by over “15,000 firms that operate in every industry and all 50 states and employ
millions of Americans.”
USING TECHNOLOGY TO POWER OUR ECONOMY
FORWARD
Reliable and affordable supplies of energy are critical to maintaining an
American economy that is competitive in the global marketplace. The recent
high costs of energy, particularly for crude oil, refined gasoline, and diesel fuels,
have raised the costs associated with producing and transporting goods and
services to market. Higher product costs mean less savings, job creation, and
prosperity. To address these high fuel costs, President Bush is taking steps to
develop alternatives to crude oil for transportation. His 2007 budget will increase
research funding for production of cellulosic ethanol from agricultural wastes,
helping the farm economy with a new product while increasing America's energy
security. He is also promoting technologies to enable greater fuel efficiency
through sensible reforms to the Corporate Average Fuel Economy (CAFE)
program and through tax incentives for efficient hybrid and clean diesel vehicles
contained in the energy bill he signed into law in August 2005. For the long
term, the President's Hydrogen Fuel Initiative seeks to develop a new generation
of hydrogen vehicles that will eventually eliminate our dependence on foreign
oil, improving our energy security.
In addition, the President will act to address the high cost of natural gas, which is
straining home heating budgets and leading some industrial firms to relocate
overseas where energy costs are lower. Over the past decade, natural gas has
been the fuel of choice for new power plants, resulting in increasingly high
demand for natural gas with very little new supply. To address the fundamentals
driving higher natural gas prices, the President is proposing policies that will
diversify the fuels we use in our electric power sector by encouraging new
investments in clean coal technology, nuclear power, and renewable energy
sources. His 2007 budget supports cutting-edge investments in clean coal and
carbon sequestration to enable continued use of our plentiful domestic coal
resources with fewer environmental impacts. The President will propose
visionary new efforts to recycle spent nuclear fuel, allowing for a rapid expansion
of nuclear power around the world, while addressing concerns over proliferation
risk and lack of current nuclear waste storage. And renewable energy
technologies offer the prospect of homes and buildings that can one day generate
more power than they consume, using solar photovoltaic technologies integrated
into the building itself. By reducing future demand for natural gas, these
resources -- coal, nuclear, and renewables -- will help reduce prices for
consumers, keep high-paying manufacturing and industrial jobs here in America,
and reduce the need for future imports of natural gas by pipeline or by tanker.
Lower energy prices and secure energy resources will mean a growing and
prosperous American economy, one that will vigorously compete in the
technology-driven world of tomorrow.
17. 14
However, the effectiveness of the current credit has been limited in part because of its complexity, antiquated
formula, and ongoing uncertainties associated with its renewal (it expired for the 12th time on December 31,
2005). Making the credit permanent, which is estimated to cost $4.6 billion in FY 2007 and $86.4 billion over
ten years (Table 1), will eliminate problems associated with its temporary nature. In addition, the
Administration will work with Congress to make appropriate changes to the credit to simplify and modernize it
in order to increase incentives for businesses to invest in research and development over the long term.
Table 1: Budgetary cost of making the R&E tax credit permanent, FY 2007 – FY 2016 (in billions of dollars).
Year 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Total
Cost 4.6 5.9 6.9 7.7 8.3 9.0 9.7 10.5 11.4 12.3 86.4
18. 15
LEADING THE WORLD IN TALENT AND
CREATIVITY
Education is the gateway to opportunity and the foundation of a knowledge-based, innovation-driven
economy. For the U.S. to maintain its global economic leadership, we must ensure a continuous supply
of highly trained mathematicians, scientists, engineers, technicians, and scientific support staff as well as
a scientifically, technically, and numerically literate population. The American Competitiveness Initiative
proposes $380 million in new Federal support to build on the President’s commitment to strengthen our
Nation’s education system. By improving the quality of math, science, and technological education in our
K-12 schools, thus engaging every child in rigorous courses that teach important analytical, technical, and
problem-solving skills, we will prepare our citizens to compete more effectively in the global
marketplace.
No Child Left Behind
The President’s No Child Left Behind Act (NCLB), passed by a bipartisan majority in Congress and
signed into law on January 8, 2002, ended decades of low expectations and excuses for poor performance.
NCLB requires the presence of highly qualified teachers in every classroom and the use of research-based
instruction to optimize student learning. NCLB also requires annual student assessment in reading and
mathematics through the early grades and once in high school to detect deficiencies early and offer
needed remediation. This landmark piece of legislation has reformed public education to ensure that
every child has access to a high-quality education and the opportunity to develop the skills necessary to
become a productive citizen in the 21st
century.
Since taking office in
2001, President Bush
has provided
unprecedented
funding increases for
a number of priority
education programs.
For example, funding
for Title I, which
provides financial
support for Local
Educational Agencies
with the highest
percentages of
children from low-
income families,
increased by over 45
percent between fiscal
years 2001 and 2006.
Additionally, funding
for targeted programs
aimed at increasing achievement in reading, such as Reading First, has increased by over 300 percent.
In addition to yearly assessments administered by states to evaluate the Adequate Yearly Progress (AYP)
of students, schools, and districts, a series of nationally administered assessments provide a snapshot view
Title I Funding
$0.00
$2.00
$4.00
$6.00
$8.00
$10.00
$12.00
$14.00
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
YEAR
$InBillions
Title I Funding
Chart 3: Title I provides financial assistance through State Education Agencies to Local
Education Agencies and public schools with high numbers or percentages of low-income
children.
19. 16
of the Nation’s collective education performance and progress. The National Assessment of Educational
Progress (NAEP), also called the Nation’s Report Card, measures student achievement in reading and
mathematics, among other academic subjects, at various grade levels. This year’s promising NAEP
results show improvements across the board in mathematics and in fourth-grade reading, with African
American and Hispanic students posting all-time high scores in a number of areas. These data
demonstrate the positive impact NCLB has had on students—an accomplishment for which students,
teachers, and parents should be commended. However, much is still to be done to improve U.S. student
performance relative to the rest of the world.
As important as the early years are to building a strong foundation in mathematics and reading, rigorous
high school preparation can make the difference between success and failure as a student moves on to
college or the workplace. In order to build upon the success we have seen in the early grades, President
Bush has proposed extending key aspects of NCLB to include the high school years. Expanding
accountability and high expectations to high schools is the first step to ensuring an education system that
prepares the Nation’s students for the jobs of the 21st
century. The President’s High School Reform
Initiative will:
• Provide grants through State educational agencies to local educational agencies for targeted,
proven interventions that increase the achievement of high school students, eliminate the
achievement gap, and prepare all students to graduate with the knowledge and skills they need to
enter college or the workforce; and
• Require testing in two additional high school grades to inform schools of the efficacy of their
curriculum and identify students in need of additional help.
AMERICAN COMPETITIVENESS INITIATIVE: EDUCATION
Although we have seen great progress in student performance in reading and mathematics as a result of
NCLB and expect to see similar results at the high school level under the President’s High School Reform
Initiative, a number of gaps must be addressed if U.S. students are to realize their full potential. President
Bush’s American Competitiveness Initiative seeks to fill these gaps and produce results by establishing a
number of new and expanded programs, including:
• Advanced Placement/International Baccalaureate (AP/IB) Program to expand access of low-
income students to rigorous course work by training 70,000 additional teachers to lead AP/IB
math and science courses and to increase the number of AP/IB math and science tests passed by
low-income students to 700,000 from 230,000;
• Adjunct Teacher Corps to encourage up to 30,000 math and science professionals to become
adjunct high school teachers.
• A National Math Panel to evaluate empirically the effectiveness of various approaches to
teaching math and science and to create a research base to improve instructional methods and
materials;
• Math Now for Elementary School Students program to promote promising and researched-based
practices in mathematics instruction and to prepare students for more rigorous math courses in
middle and high school;
• Math Now for Middle School Students to diagnose and remedy the deficiencies of students who
lack math proficiency and to provide proven methods of intensive and systematic instruction
aligned with the goals of NCLB;
• Evaluation of Federal Science, Technology, Engineering, and Math (STEM) education programs
across agencies to determine which are effective in meeting their stated goals; and
20. 17
• Include Science Assessments in NCLB accountability to ensure children are learning the necessary
content and skills to be successful in the 21st
century workforce.
PRESIDENT’S ACI INITIATIVE FY 2007 Budget Request
AP/IB $122 million
Adjunct Teacher Corps $25 million
National Math Panel $10 million
Math Now for Elementary School Students $125 million
Math Now for Middle School Students $125 million
Evaluation of Federal STEM programs $5 million
Training and Recruiting Highly Qualified Teachers
Fundamental to improving student learning and achievement is the presence of highly qualified teachers
in every classroom. Teachers must have mastery of content and instructional methods to be effective
educators and mentors, yet recent data published as part of the 2003 Trends in International Mathematics
and Science Survey indicate that, at the elementary grade level, less than eight percent of students are
taught by teachers with a major or specialization in mathematics or science. The statistics improve
somewhat at the 8th
grade level, where 48 percent of students are taught by teachers who majored in
mathematics and 15% by teachers who majored in science, but still a significant majority of children are
being taught math and science by teachers who lack significant training in the subjects they teach. NCLB
requires teachers to be highly qualified and provides funding through the Improving Teacher Quality
State Grants, which can be used to address a variety of challenges for schools and districts, including
teacher preparation and qualifications of new teachers, recruitment and hiring, and professional
development. Further investment in high-quality professional development that increases teachers’
content knowledge is necessary to ensure students get access to more rigorous curriculum.
While a number of Federal programs are focused on recruiting more college math and science majors into
teaching careers, the lag time in education means that it will take years to fill our math and science
classrooms with highly qualified math and science teachers. Yet there is an untapped resource among
current and retiring science and mathematics professionals who have both content mastery and the
practical experience to serve as effective teachers and positive role models for students who are interested
in science or mathematics careers. While many scientists and engineers express an interest in teaching,
traditional teacher certification programs are seen by many scientists and mathematicians as an
unnecessary and unacceptable barrier to becoming a classroom teacher. Being a good practitioner of
mathematics or science does not necessarily make one a good teacher of those subjects, but anecdotal
evidence does suggest that math and science majors and professionals are more likely to transition to
careers in teaching if their teacher certification recognizes the training and experience they possess in
their field.
To meet these challenges, the American Competitiveness Initiative proposes a two-step approach that
provides professional development for current teachers and attracts new teachers to the classroom:
The Advanced Placement Incentive Program expands the Administration’s current commitment to the
Advanced Placement/International Baccalaureate (AP/IB) programs by increasing funding to $122
million ($90 million over fiscal year 2006 appropriations) with a specific emphasis on math and science.
This program targets districts with a high concentration of low-income students by offering incentives and
training to teachers to become highly qualified instructors of AP/IB math and science courses, while also
subsidizing AP/IB testing fees for lower income students. The Department of Education would require
21. 18
applicants to offer incentives, such as salary increments or bonuses, to teachers to become qualified to
teach AP/IB courses in mathematics, science, and critical foreign languages by completing training
provided or recognized by the College Board or the International Baccalaureate Organization, or the
equivalent, and to teachers who increase
the number of students passing AP/IB
tests in those subjects. The Administration
calls on States and the private sector to
match, dollar-for-dollar, the Federal
Government’s investment in this program
to meet the five-year goal of training
70,000 new teachers and increasing the
number of students achieving passing
AP/IB scores to 700,000.
In addition to funding professional
development opportunities for current
teachers, the American Competitiveness
Initiative also provides funds to
establish an Adjunct Teacher Corps
program. Through this program, the
Department of Education will support
partnerships between school districts and
public or private organizations that
encourage and prepare science,
mathematics, and engineering
professionals to teach specific high school
math, science, and technology courses as
adjunct teachers. This initiative would tap
the skills of well-qualified individuals
who reside outside of the public education
system to meet specialized needs in
secondary schools. The goal of this $25 million investment, matched by States and the private sector, is
to have a 30,000 member Adjunct Teacher corps by 2015.
Research-Based Teaching Materials and Methods
A pillar of NCLB is its requirement that schools utilize research-based curricula and proven methods to
raise student achievement. Thanks largely to the efforts of the National Reading Panel, established by
Congress in 1997, we have made great progress in understanding how children learn to read and in
developing research-based diagnostic tools, teaching materials, and “best practices” that improve reading
instruction. A report issued by the Panel helped shape several promising Administration initiatives,
including the Reading First and the Striving Readers programs. Both of these programs are designed to
help schools and school districts improve reading achievement through proven methods of instruction.
We do not have a similarly strong research base in the area of math education. There is little empirical
research on how children learn mathematics, and a thorough review of existing mathematics curricula by
the Department of Education’s What Works Clearinghouse shows that few mathematics curricula are
either research-based or proven effective as a result of rigorous independent evaluation.
Building on the successful model of the National Reading Panel and subsequent Reading programs, the
American Competitiveness Initiative provides funding for several important programs aimed at
SUPPORTING TEACHER
PROFESSIONAL DEVELOPMENT
Research confirms that teachers are the single most important factor
in raising student achievement. The Department of Education’s
Teacher-to-Teacher Initiative was created by teachers for teachers
and provides access to free professional development activities and
keeps teachers informed of new policies and the best practices vital
to their craft.
The initiative engages the Nation’s best teachers and principals to
share strategies for raising student achievement through a variety of
resources that highlight real-world examples of how teachers
translate education research into practice that works in the
classroom. The initiative offers help through free online digital
workshops, an eLearning website, and teacher-to-teacher
workshops held in cities across the country.
The initiative has helped more than 200,000 teachers learn effective
strategies for raising student achievement, including training
approximately 4,500 teachers at 18 workshops since 2004. The
Department is expanding this initiative by partnering with TechNet,
a group of technology companies, to create urban teacher
workshops focusing on math, science, and technology. The goal is
to enhance teachers’ content knowledge so they can motivate
students to pursue math and science in school and better prepare
students for careers in those fields.
22. 19
discovering how students learn math, how best to prepare teachers in these disciplines, and what materials
are most effective in raising student achievement and preparing students early on for more rigorous
coursework in high school and beyond.
The National Math Panel
Similar to the National Reading Panel, the National Math Panel will bring together experts in
mathematics, cognitive science, and education to review the current literature and identify important
research findings as well as gaps in our current knowledge. They will work to fill these research gaps and
conduct a comprehensive assessment of existing programs so that they can establish principles for
effective math instruction.
The Math Now Programs
As research advances our understanding of how students learn and the National Math Panel identifies
principles for effective teaching, it is imperative that other teams of mathematicians and educators be
prepared to translate these research findings into practical solutions for teachers. The Math Now
programs will put effective tools into the hands of teachers so that students begin to benefit from our
improved understanding of learning and cognition.
Math Now for Elementary Students will lay the groundwork for establishing a strong foundation in
math. This program will enable teachers to access proven methods, materials, and practices that will
provide students with a solid foundation for more rigorous math coursework in middle and high school.
Math Now for Middle School Students will build on the successes of the elementary school programs
and will provide more sophisticated diagnostic tools and remediation strategies for students who have
notable deficiencies. This program will promote research-based interventions involving intensive and
systematic instruction with the goal of proficiency in algebra for middle-school students.
Evaluating the Impact of Government-Wide Investments in Math and Science Education
While the Department of Education has the primary mission at the Federal level of improving U.S. K-12
education, a number of Federal agencies sponsor programs aimed at generating student interest in science
and technology, developing innovative curricular materials, providing teacher preparation and
professional development opportunities, and increasing the general public’s understanding of various
scientific efforts and issues. Although there are a large number of existing Federal programs that support
both formal and informal math and science education and outreach, these programs are quite fragmented
across the government and few have been evaluated for their efficacy in improving student learning.
For this reason, the American Competitiveness Initiative will provide $5 million for the purpose of
establishing a comprehensive evaluation program that will review past, current, and future federally
funded programs to determine what works in preparing teachers and educating students in math and
science and how well these programs are aligned with the goals of NCLB. To the extent possible, this
evaluation program will incorporate the accountability principles of NCLB and will look to empirical
indicators of enhanced student performance as a result of student or teacher participation in these
government-sponsored education programs. Funds will be used to assess the quality of program
evaluations, to design and carry out evaluations of programs that have not been evaluated, and to develop
guidelines for future program evaluations.
23. 20
Including Science Assessments in NCLB
Currently, NCLB requires every State to develop and administer science assessments once in each of
three grade spans by the 2007-08 school year. However, NCLB does not require these assessments in the
accountability system. Including science assessments in the accountability system will illustrate the
importance of science as part of a student’s education and ensure students are learning the content
knowledge necessary to prepare them for the jobs of the 21st
century.
Encouraging Students to Major in STEM Fields
Through NCLB, it is President
Bush’s goal to enable every child to
leave high school fully prepared to
enter college or the workforce.
Over the past two decades,
enrollment in U.S. institutions of
higher education rose from 12.6
million students in 1983 to 15.7
million in 2001. Over that same
period, the number of entering
freshman who declared their intent
to study science and engineering
(S&E), as well as the percentage of
S&E degrees conferred, remained
steady at about one-third of all
degrees. Within certain fields, such
as engineering and the physical
sciences, however, there have been
slight declines in enrollment and
degree completion, while in other
S&E fields, such as the social and
behavioral, life, and computer
sciences, degree completion rates
have increased. Among those who
graduate with S&E bachelor’s
degrees, the retention rate of those
who go into S&E graduate
education or careers has declined to
28 percent. It is important that our
country maintain an adequate flow
of well-trained STEM workers, and
for that reason President Bush
supports a number of programs
across the Federal government that
seek to increase access to college
and to recruit and retain students in
STEM majors at the undergraduate and graduate levels.
24. 21
To make a college degree more affordable, the President has provided the largest increase in Pell grant
funding in the history of the program and has increased by one million the number of students receiving
this assistance. In particular, the President supports recent Congressional action to establish the American
Competitiveness Grants program, which provides supplemental grants to low-income college freshman
and sophomores who completed a rigorous high school curriculum and maintain at least a 3.0 GPA in
college, and juniors and seniors who major in math, science, and critical foreign languages. This new
grant program builds on proposals included in President Bush’s 2006 Budget request, including the
President’s proposal to provide enhanced Pell Grants to students who pursue rigorous coursework in high
school and the Presidential Math and Science Scholars Fund. As passed in the Deficit Reduction Act, the
American Competitiveness Grants will provide a total of $4.5 billion in grant aid to students through the
2010-2011 academic year, including $790 million in the upcoming 2006-2007 academic year and $850
million in 2007-2008.
AMERICAN COMPETITIVENESS INITIATIVE: WORKFORCE TRAINING
Education, training, and retraining provide individuals with better career options, opportunities for
promotion, and the ability to contribute to the U.S. innovation enterprise. According to the Bureau of
Labor Statistics, 26 of the 30 fastest growing job categories require some type of post high school
education or training.
Data show that earnings
increase and
unemployment decreases
with educational
achievement and skills
attainment. Moreover, a
recent survey of
American manufacturers
revealed that over 80
percent of respondents
were facing a shortage of
qualified workers overall,
and over 90 percent of
respondents were facing a
moderate to severe
shortage of qualified,
skilled production
employees.
U.S. colleges and
universities provide
world-class educational opportunities for those who seek a post-secondary degree. Many individuals,
however, opt for post-secondary skills training that lead to an industry-recognized license, certificate, or
credential. In addition, many fields require workers to update their skills continually or to retrain on
newer technologies through certification programs and technical training classes or workshops. Training
and development programs are critical to maintaining a skilled workforce capable of making efficient use
of cutting-edge technologies, and greater access to these programs is critically important for individual
workers as well as for America’s competitiveness.
A COMMITMENT TO COMMUNITY COLLEGES
Community colleges make great training providers because they are affordable,
accessible, and perhaps most important, adaptable. Community colleges are able
to track changing local labor conditions and partner with local employers to
provide training geared toward the jobs that are in demand.
One of the hallmarks of a strong economy is labor market flexibility. When
workers can move relatively freely from job to job and place to place following
the rhythms of the marketplace, businesses have the workers they need to do the
job and workers have opportunities for career advancement. Community
colleges, as flexible training providers, help make the U.S. workforce and the
U.S. economy more competitive.
In his 2004 State of the Union address, the President proposed “increasing our
support for America's fine community colleges, so they can…train workers for
industries that are creating the most new jobs.”
This commitment has been supported by $125 million in 2005 and 2006 for
the Community-based Job Training Grants program to provide training for
100,000 workers. The President's Fiscal Year 2007 budget supports these efforts
with a $150 million request, which would provide training for 160,000 workers.
25. 22
Yet Federal workforce programs, as currently designed, are an inefficient means to meet the needs of the
21st
Century American workforce. Too much money is currently spent on competing bureaucracies and
the sometimes cumbersome service delivery infrastructure, and not enough on meaningful education and
skills training that leads to job growth and economic prosperity. In general, infrastructure and overhead
costs are estimated to consume one third of all Federal training dollars, which amounts to approximately
$1.2 to $1.5 billion annually.
Several states, including Idaho, Montana, and Indiana, have recognized the need to spend more dollars on
worker education and skills training and fewer dollars on overhead and administration and are working to
consolidate and streamline their workforce training programs. These States anticipate savings on the
order of $1 to $2 million each through these efforts, much of which can be passed on to provide more
training opportunities for more individuals. However, these States, as well as all other States, could
provide additional educational and training opportunities through a new approach to job training in
America.
The 2007 Budget introduces an important initiative, Career Advancement Accounts (CAA). CAAs will
be self-managed accounts of up to $3,000 available to workers entering the workforce or transitioning
between jobs, or incumbent workers in need of new skills to remain employed or move up the career
ladder. The CAAs will give workers the resources they need to increase their skills and compete for the
jobs of the 21st century economy. The CAA initiative also provides flexibility for Governors and States to
design service delivery systems that best serve their citizens.
These accounts will:
Empower individuals by significantly increasing workers' choices in the job training and
employment services they need to get back to work. Workers will have the resources to take the
longer-term training that leads to higher-paying jobs.
Increase training opportunities by eliminating duplicative training and employment programs and
unnecessary overhead. The CAA initiative will offer training opportunities to some 800,000
people annually, more than tripling the number trained under the current system.
Increase flexibility by allowing individuals to use their accounts for training and other services to
help them advance their careers.
AMERICAN COMPETITIVENESS INITIATIVE: IMMIGRATION
President Bush has established a goal to better prepare U.S. students and workers to succeed in the 21st
century workforce. The President also recognizes that enabling the world's most talented and hardest-
working individuals to put their skills to work for America will increase our entrepreneurship and our
international competitiveness, and will net many high-paying jobs for all Americans. The United States
benefits from our ability to attract and retain needed immigrant and non-immigrant students and workers,
and it is important that America remains competitive in attracting talented foreign nationals. President
Bush has a comprehensive plan for immigration reform that meets the needs of a growing economy,
allows workers to provide for their families while respecting the law, and enhances homeland security by
securing and relieving pressure on the borders.
26. 23
CONCLUSION
In the years to come, the United States will face increased economic competition from a number of
countries around the world. We will have to work harder to maintain our competitive edge. By laying
the foundation today for expanded scientific and technological excellence, we will continue to lead the
world tomorrow in inquiry, invention, and innovation. The greatest asset of our Nation is the potential of
the American people. America is founded on the belief that every life is precious and holds unique
promise. By investing in people, helping them reach their full potential, and rewarding their creativity,
we will unleash the natural creativity and ingenuity of the human mind, create new jobs, train workers to
fill them, and make our Nation and the world a safer, cleaner, and better place to live. The American
Competitiveness Initiative provides our Nation with the tools to better educate our children, to train our
workforce, and to push the boundaries of our scientific and technological capabilities now and in the
future.