Improving Underrepresented Minority Student Persistence in STEM.

Members of the Joint Working Group on Improving Underrepresented Minorities (URMs) Persistence in Science, Technology, Engineering, and Mathematics (STEM)-convened by the National Institute of General Medical Sciences and the Howard Hughes Medical Institute-review current data and propose deliberation about why the academic "pathways" leak more for URM than white or Asian STEM students. They suggest expanding to include a stronger focus on the institutional barriers that need to be removed and the types of interventions that "lift" students' interests, commitment, and ability to persist in STEM fields. Using Kurt Lewin's planned approach to change, the committee describes five recommendations to increase URM persistence in STEM at the undergraduate level. These recommendations capitalize on known successes, recognize the need for accountability, and are framed to facilitate greater progress in the future. The impact of these recommendations rests upon enacting the first recommendation: to track successes and failures at the institutional level and collect data that help explain the existing trends

Science, Engineering, and Mathematics Education: Status and Issues

[Excerpt] An important aspect of U.S. efforts to maintain and improve economic competitiveness is the existence of a capable scientific and technological workforce. A major concern of the 110th Congress may be regarding the future ability of the U.S. science and engineering base to generate the technological advances needed to maintain economic growth. Discussions have centered on the quality of science and mathematics education and training and on the scientific knowledge of those students entering other disciplines. Even students pursuing nonscientific and nonmathematical specialities are likely to require basic knowledge of scientific and technological applications for effective participation in the workforce. Charges are being made that many students complete high school scientifically and technologically illiterate

Learning for the Future: Changing the Culture of Math and Science Education to Ensure a Competitive Workforce

This report argues that improving the math and science skills of our nation's youth is an important step in ensuring and promoting innovation-led economic growth in the coming decades. The report calls for the implementation of a strategic plan that will increase student "demand" for and achievement in mathematics and science

The Workforce Needs of New Jersey's Pharmaceutical and Medical Technology Industry

This report is based on an online survey conducted in spring 2006 of pharmaceutical and medical technology companies in New Jersey. It identifies the current and future workforce needs of the pharmaceutical and medical technology industry in New Jersey

Strategies for Improving the Diversity of the Health Professions

Evaluates programs and strategies that were designed to increase the number of underrepresented African Americans, Native Americans, and Latinos in the health professions in California. Includes recommendations

Introduction to \u3ci\u3eDoctoral Education and the Faculty of the Future\u3c/i\u3e

[Excerpt] Concern has been expressed, however, that the growing enrollment of foreign students in American PhD programs crowds out potential American citizen PhD holders and discourages them from pursuing PhD study. On the other hand, the aftermath of 9/11, the growth of research infrastructure and research support in other nations, and the growth of other nations\u27 higher education systems all cast doubt on the ability of the United States to continue to rely on foreign PhD holders to meet our nation\u27s need for scientific researchers and to fill future faculty positions. Given all of these issues, in October 2006 the Cornell Higher Education Research Institute brought together a group of researchers from a wide number of science and social science fields, academic administrators, and policymakers for the conference Doctoral Education and the Faculty of the Future. The sessions at the conference focused on efforts to increase and improve the supply of future faculty, and covered topics ranging from increasing undergraduate interest in doctoral study to improving the doctoral experience and the representation of underrepresented groups in doctoral education. The chapters in this book are revisions of the papers presented at that conference

Expanding Underrepresented Minority Participation: America's Science and Technology Talent at the Crossroads

Recommends investing in research, innovation, and a dynamic science and engineering workforce with the participation of underrepresented minorities. Suggests ways to improve access, motivation, affordability, and supports to raise degree completion rates

Accomplishments of the Partnership for Higher Education in Africa, 2000-2010

Details the investments and impact of a funder collaborative focused on higher education in nine African countries, and each foundation's contribution. Discusses enduring improvements, increased resources, value added, and additional foundation efforts

Vocational ladders or crazy paving? Making your way to higher levels

The report is part of a suite of research projects on apprenticeships under the overall theme of 'making work-based learning work'. The aim of this particular study was to explore the role of level 3 vocational qualifications and work-based learning, including Modern Apprenticeships, as progression routes to higher education and to higher-level knowledge and skills more generally. The study comprised secondary analysis of national datasets, and an exploration of supply, demand and progression patterns in four contrasting employment sectors, focusing on enablers and inhibitors of work-based education and training

Aligning Best Practices in Student Success and Career Preparedness: An Exploratory Study to Establish Pathways to STEM Careers for Undergraduate Minority Students

Undergraduate minority retention and graduation rates in STEM disciplines is a nationally recognized challenge for workforce growth and diversification. The Benjamin Banneker Scholars Program (BBSP) was a five-year undergraduate study developed to increase minority student retention and graduation rates at an HBCU. The program structure utilized a family model as a vehicle to orient students to the demands of college. Program activities integrated best K-12 practices and workforce skillsets to increase academic preparedness and career readiness. Findings revealed that a familial atmosphere improved academic performance, increased undergraduate research, and generated positive perceptions of faculty mentoring. Retention rates among BBSP participants averaged 88% compared to 39% among non-participant STEM peers. The BBSP graduation rate averaged 93% compared to 20% for non-participants. BBSP participants were more likely to gain employment in a STEM field or enter into a professional study. This paper furthers the body of research on STEM workforce diversity and presents a transferrable model for other institutions