Mathematics and science partnerships
Mathematics and Science Partnerships is education policy from Title 2, Part B, Sections 2201-2203 of the No Child Left Behind Act of 2001. The purpose of MSP is to increase student achievement in science and mathematics by partnering IHE science, math, and engineering departments with elementary and secondary science and math teachers in high-need local educational agencies in order to develop teachers' content knowledge and instructional performance. SEAs may apply for competitive grants and then IHEs and LEAs may apply for a subgrant of the SEA.
Historical context
The United States began to place a greater focus on math and science education during the "Space Race" that began in the 1950s. The launch of Sputnik in 1957 by the Soviet Union created a scare that the United States was not a leader in math and science. In response to Sputnik, the National Defense Education Act initiated education policy that aimed to increase college enrollment and prepare a workforce qualified to compete with the Soviet Union in science and technical fields.Math and science education continued to receive attention following the Cold War through various programs and policy in the STEM fields. The STEM Education Coalition currently works to promote awareness about the need for improved STEM education and supports legislature that advances teaching and learning in STEM fields.
The National Science Foundation also provides great support for STEM fields through various projects aimed at enhancing interest and performance in STEM through various means of support at the elementary, secondary, and post-secondary levels. Examples of such programs include summer research opportunities for undergraduates, fellowships for graduate students, and professional development for K-12 classroom teacher.
In 2001, President Bush signed the No Child Left Behind Act with the goal of having all students proficient in reading and math by 2014. Mathematics and Science Partnerships fall in the Title 2 section of NCLB, "Improving Teacher Quality Grant Program". Since then, science and math education has continued to be an area of concern in education policy due to the continued fear the United States is not producing innovative leaders in science and technology.
Design of partnerships
The Mathematics and Science Partnerships policy is implemented with the following framework:- Teachers partner with math, science, and engineering departments of IHEs
- Partners provide professional development for math and science teachers
- Student achievement increases as a result of improved teaching
Examples
Implementation of Mathematics and Science Partnerships varies depending on the state and the needs of the schools but follows the same general structure. One example, in the District of Columbia, is a partnership between George Washington University and District of Columbia Public Schools. This partnerships seeks to provide professional development for teaching assistants and faculty in GWU's teacher education program, implement graduate coursework for science teachers that teachers content knowledge beyond the minimum of what teachers would need to know to teach science, and modify curriculum in order to increase inquiry-based learning in science.Another example of a partnership, in California, is between California State University Dominguez Hills and Whittier City School District. This particular partnerships aims to improve mathematics teaching in grades three through eight by providing research-based professional development that increased teachers' content knowledge and pedagogical skills. The partnership paired mathematics faculty with a teacher over the course of several years.
Partnerships have also sought to include innovative teaching resources such as technology and other multimedia sources.