Date: June 23, 2011
FOR IMMEDIATE RELEASE
To Raise Science Education to Same Level of Importance as Math and
The report responds to a request from Rep. Frank Wolf (R-Va.) for the National Science Foundation -- which sponsored the Research Council report -- to identify highly successful K-12 schools and programs in STEM fields.
“A growing number of jobs -- not just those in professional science -- require knowledge of STEM fields,” said Adam Gamoran, chair of the committee that wrote the report and professor of sociology and educational policy studies at the
The report identifies key elements of high-quality STEM education to which policymakers could target improvements:
§ A coherent set of standards and curriculum. States and districts should have rigorous K-12 STEM standards and curricula that are focused on the most important topics in each discipline and presented as a sequence of content and practices that build knowledge over time.
§ Teachers with high capacity to teach in their discipline. Good teachers need to know both STEM content and how to teach it; many teachers are currently underprepared to teach STEM-related courses.
§ A supportive system of assessment and accountability. Current assessments limit educators’ ability to teach in ways that promote learning the content and understanding the practices of science and mathematics.
§ Adequate instructional time. The average amount of time spent on science instruction in elementary classrooms has decreased in recent years even as the time on mathematics instruction has increased. This is likely due to the focus on math and English language arts in the No Child Left Behind Act.
§ Equal access to high-quality STEM learning opportunities. States and districts should strive to eliminate the disparities in access to high-quality STEM education between advantaged students and minority and low-income students, which contribute to the existing achievement gaps.
§ School conditions and cultures that support learning. Although teacher qualifications certainly matter, so do school conditions and culture -- such as school and district leadership and parent and community involvement.
The report suggests that one way to elevate science to the same level of importance as mathematics and reading is to assess science subjects as frequently as is done for reading and math, using an assessment system that supports learning and understanding. However, such a system is not yet available for science subjects, the report notes. States and national organizations need to develop assessments that are aligned with the next generation of science standards -- which will be based on a framework to be released soon by the Research Council -- and that emphasize science practices rather than mere factual recall.
National and state policymakers also should invest in helping educators in STEM fields teach more effectively, said the committee. For example, teachers should be able to pursue professional development through peer collaboration and professional learning communities, among other approaches. Schools and school districts should devote adequate instructional time and resources to science in grades K-5 to lay a foundation for further study, the report notes, as research suggests that interest in science careers may develop in the elementary school years.
In addition to strengthening STEM education in traditional schools, districts seeking to improve student outcomes in STEM fields could also consider three types of specialty schools targeted to that goal: selective STEM schools, which are organized around these fields and have selective admissions criteria; inclusive STEM schools, which have the same focus but without selective admissions; and STEM-focused career and technical education programs, which allow students to explore practical applications of science and related career options. Although there is no solid evidence about which approach works best for different student populations, or whether these three types are superior to enhanced STEM education in traditional schools, there are promising findings that the three types can be models for further development of effective STEM instruction and learning.
The study was sponsored by the National Science Foundation. The National Academy of Sciences, National Academy of Engineering,
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Pre-publication copies of Successful K-12 STEM Education: Identifying Effective Approaches in Science, Technology, Engineering, and Mathematics are available from the National Academies Press; tel. 202-334-3313 or 1-800-624-6242 or on the Internet at http://www.nap.edu. Reporters may obtain a copy from the Office of News and Public Information (contacts listed above).
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NATIONAL RESEARCH COUNCIL
Division of Behavioral and Social Sciences and Education
Committee on Highly Successful Schools or Programs for K-12 STEM Education
Adam Gamoran (chair)
John D. MacArthur Professor of Sociology and Educational
Policy Studies, and
Professor of Economics and Executive Director of the
Jerry P. Gollub*
John and Barbara Bush Professor in the Natural Sciences and Professor of Physics
Glenn “Max” McGee
Milbrey W. McLaughlin
David Jacks Professor of Education and Public Policy
Barbara M. Means
Center for Technology in Learning
Steven A. Schneider
Senior Program Director
Science, Technology, Engineering, and Mathematics Program (STEM)
Jerry D. Valadez
RESEARCH COUNCIL STAFF
Director, Board on Science Education
Director, Board on Testing and Assessment