During the preparation of the 2010 Science & Engineering Indicators, there arose a concern about measures of public knowledge of science, and how well they capture public knowledge for Chapter Seven of the Indicators. A workshop at NSF in October 2010 concluded that the process of measuring and reporting public knowledge of science should start with the question of what knowledge a person in the public needs, whether for civic engagement with science and science policy, or for making individual decisions about one’s life or health, or for feeding one’s curiosity about science. This starting
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TEAM MEMBERS:
John BesleyMeg BlanchardMark BrownElaine Howard EcklundMargaret GlassTom GuterbockA. Eamonn KellyBruce LewensteinChris ToumeyDebbie RexrodeColin Townsend
Many informal science and mathematics education projects employ multiple media, but studies typically have investigated learning from a single medium, rather than multiple media. The present research, funded by the National Science Foundation, used Cyberchase(a multiple-media, informal mathematics project targeting 8-to 11-year-olds, produced by Thirteen/WNET) to investigate synergy among multiple media components and how they interact to yield cumulative educational outcomes.
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TEAM MEMBERS:
Shalom FischRichard LeshElizabeth MotokiSandra CrespoVincent Melfi
Informing an Effective Response to Climate Change, a volume in the America's Climate Choices series, describes and assesses different activities, products, strategies, and tools for informing decision makers about climate change and helping them plan and execute effective, integrated responses. It discusses who is making decisions (on the local, state, and national levels), who should be providing information to make decisions, and how that information should be provided. It covers all levels of decision making, including international, state, and individual decision making. While most
Archaeology education activities in informal science learning settings are an underutilized, but effective strategy for teaching science inquiry skills in socially and culturally relevant contexts. This project investigated the potential for archaeological content and inquiry strategies to help informal science learning institutions increase learning with diverse ISE audiences. The project was based on foundational research for the development of a national research framework for archaeology education and a plan for developing high-quality science learning opportunities for under-represented
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TEAM MEMBERS:
Michael BrodyJohn FisherJeanne MoeHelen Keremedjiev
In the United States, African Americans are underrepresented in science careers and underserved in pre-collegiate science education. This project engaged African American elementary students in culturally relevant science education through archaeology and thereby increased positive dispositions toward science. While imagining what the lives of their ancestors were like, students practiced scientific inquiry and used natural sciences to analyze archaeological sites. The project helped to improve science literacy among African American elementary students through archaeological inquiry and
Across the country many schools and communities are trying to create and support efforts to institutionalize partnerships for learning, including those that rethink the use of time across the school day and year, and across the developmental continuum. These partnerships are not merely transactional in nature but rather transformative: partnering entities work together to integrate and complement their services with the shared goal of supporting children’s learning. Referred to by different terms—integrated, expanded, or complementary learning—the concept has one critical element in common
Recognizing that the Maker movement embodies aspects of science, technology, engineering, and mathematics (STEM) learning that are the hallmarks of effective education — deep engagement with content, critical thinking, problem solving, collaboration, learning to learn, and more — NYSCI, in collaboration with Dale Dougherty and Tom Kalil, approached the National Science Foundation to sponsor a two-day workshop. Over 80 leaders in education, science, technology and the arts came together at NYSCI to consider how the Maker movement can help stimulate innovation in formal and informal education
Women have made tremendous progress in education and the workplace during the past 50 years. Even in historically male fields such as business, law, and medicine, women have made impressive gains. In scientific areas, however, women’s educational gains have been less dramatic, and their progress in the workplace still slower. In an era when women are increasingly prominent in medicine, law, and business, why are so few women becoming scientists and engineers? This study tackles this puzzling question and presents a picture of what we know—and what is still to be understood—about girls and
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TEAM MEMBERS:
Catherine HillChristianne CorbettAndresse St. Rose
The article focuses on an educational program called Game Design Through Mentoring and Collaboration. The program is a partnership between McKinley Tech and George Mason University (GMU) in Fairfax, Virginia. Through this program the teachers ensure students understand the pathways needed for participation in the science, technology, engineering, and math (STEM) enterprise. Kevin Clark, is the principal investigator of the program.
This executive summary presents demographic data and survey results from participants in the 2010 SciGirls summer camp. Based on the post survey responses, the majority of the participants felt that the camp had increased their interest in science (78%) and science careers (97%). Those students who did not mention an increased interest said that they already had a high interest in science and STEM careers before camp.
This report confirms the necessity of a graduate-level workforce to maintain U.S. competitiveness and innovation. However, the report warns that the country must adopt a national strategy to increase degree completion and broaden participation in graduate education, or risk losing its position as the world leader in cutting-edge research and innovation. The Path Forward: The Future of Graduate Education in the United States calls on the federal government, universities and industry to work together to ensure that U.S. graduate schools remain preeminent and that a growing number of U.S
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TEAM MEMBERS:
Commission on the Future of Graduate Education in the United StatesCathy WendlerBrent BridgemanFred ClineCatherine MillettJoAnne RockNathan BellPatricia McAllister
This report is the result of a two-year study that sought to provide a sustained, coherent, and proactive effort to identify and develop the future science, technology, engineering, and math (STEM) innovators in the United States. The report puts forth several policy recommendations, including: increasing K-12 access to accelerated coursework and enrichment programs; offering more “above-level tests,” especially in economically disadvantaged urban and rural areas; holding schools, and perhaps districts and states, accountable for the performance of the top students at each grade level; and
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TEAM MEMBERS:
National Science BoardNational Science Board