eric.ed.gov har udgivet: California State University, Bakersfield (CSUB) received funding from National Science Foundation’s (NSF) Robert Noyce Teacher Scholarship Program to recruit Noyce Scholars from upper-division science, technology, engineering, and mathematics (STEM) majors, graduate students, and professionals switched to STEM teaching from other fields (NSF DUE-0934944). The program purpose is to increase the number of highly qualified science and math teachers at high-needs schools. This report is based on multilevel quantitative and qualitative data from university records, program minutes, as well as individual-level information gatherings from Noyce Scholars and Advisors. In addition, the report design is grounded on a thorough review of updated literature to ensure its conformation to best professional practices. The results show that the program quality is supported involvement of a group of award-winning faculty in STEM… Continue Reading →
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eric.ed.gov har udgivet: This State-specific summary report serves as an assessment of the Florida’s annual Race to the Top implementation. The Year 3 report for Phase 1 and 2 grantees highlights successes and accomplishments, identifies challenges, and provides lessons learned from implementation from approximately September 2012 through September 2013. In Year 3, the State continued to execute contracts and implement activities consistent with the State’s amended timelines. In Year 3, Florida implemented the Common Core State Standards (CCSS) in first grade and trained approximately 13,000 educators on implementing the CCSS during summer institutes. Florida Department of Education (FDOE) continued to add CCSS-aligned resources to the Teacher Standards Instructional Tool (TSIT). The State also continued the Math Formative Assessment System (MFAS) providing Florida educators access to approximately 374 tasks and rubrics… Continue Reading →
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eric.ed.gov har udgivet: This paper describe Georgia’s progress in implementing a comprehensive and coherent approach to education reform from the time of application through June 30, 2011. In particular, it highlights key accomplishments over the reporting period in the four reform areas: standards and assessments, data systems to support instruction, great teachers and leaders, and turning around lowest-achieving schools. Race to the Top focuses on improving Science, Technology, Engineering, and Mathematics (STEM) education for Georgia students. The plan includes providing professional development for math and science teachers, strengthening the pipeline of science and math teachers from institutes of higher education, and expanding STEM related virtual courses. As a result, in partnership with the Georgia Department of Education, Georgia Tech received funding through the Race to the Top program to expand… Continue Reading →
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eric.ed.gov har udgivet: Many factors affect student learning, including school culture to teacher ability to parent support. U.S. schools are trying new ways to improve math and science education by focusing on a variety of these areas. At the core of the efforts are the age-old questions of what to teach and how to teach it–curriculum and instruction. Recent research funded by the National Science Foundation to identify best practices in STEM education shows that students in all types of schools, regardless of size or specialty, can and do engage in high-quality science, mathematics, and engineering. But the extent to which students actually do learn these subjects is a different issue. For effective K-12 STEM instruction to become the norm, schools and districts must be transformed. This brief is presented… Continue Reading →
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eric.ed.gov har udgivet: The underrepresentation of women and racial and ethnic minorities in computer science (CS) and other fields of science, technology, engineering, and math (STEM) is a serious impediment to technological innovation as well as an affront to fundamental notions of fairness and equity. These gaps emerge in the early grades and tend to persist, if not widen, throughout the secondary and postsecondary years. The unconscious biases (UB) of teachers, school administrators, and fellow students may contribute meaningfully to the persistence of these gaps. Fortunately, a nascent literature on targeted interventions that directly address UB suggests there may be compelling opportunities to promote broader engagement in CS and STEM education and employment. The fields of neuroscience, social psychology, economics, and sociology articulate the many possible origins of UB and… Continue Reading →
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eric.ed.gov har udgivet: Several avenues are open to students who wish to study advanced science or mathematics in high school, which include Advanced Placement courses and teacher-designed courses unaffiliated with organized programs. We employ a retrospective cohort study of 4,691 nationally representative college students at 34 randomly selected, colleges and universities to examine the relationship between taking advanced high school courses and students’ interest in pursuing a STEM career, while controlling for prior interests and experiences. We are able to distinguish between those students choosing to take an additional year in a science or math subject from those taking Advanced Placement (AP), which is most commonly taken as a second year course, but is increasingly taken as a first year course. We find that the number of years of a… Continue Reading →
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eric.ed.gov har udgivet: To help the United States stay globally competitive in terms of innovation and invention, the teaching of science, technology, engineering, and mathematics (STEM) has become a priority in P-12 education today. As the need for students to become stronger in STEM grows, so does the need for well-qualified STEM teachers who understand what is needed to develop relevant and high-quality STEM programs. Professional development (PD) can offer opportunities for those involved in the teaching of STEM to learn how to effectively integrate various instructional approaches, including “engineering design” into their teaching and learning environments. Professional development is important to STEM education, especially in the areas of technology and engineering. If engineering is to be recognized as an integral part of science, technology, and math education, stakeholders, organizations… Continue Reading →
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eric.ed.gov har udgivet: Employers report a shortage of talent for STEM-specific jobs — and in areas such as health care that require “basic STEM competencies.” The reasons are many, including: lack of authentic learning activities in STEM subjects, little time for science in elementary school, inadequate K-12 teacher preparation in math and science content, poor alignment of K-12 and college curricula, and insufficient collaboration between K-12 and higher education institutions to smooth student transitions from high school to college. But underlying the structural and instructional challenges is an even more fundamental problem — the longstanding debate over what students should know and be able to do by the time they finish high school. This disagreement has resulted in different STEM curricula, different STEM standards — indeed, different expectations of children… Continue Reading →
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eric.ed.gov har udgivet: In this article, author Jennifer Dubin offers a look into the innovations taking place in the Toledo Technology Academy (TTA), a career-tech school within the public school system in Toledo, Ohio. TTA teaches students in grades 7 through 12 using a science, technology, engineering, and math (STEM) curriculum, in addition to the traditional academic subjects of English, history, science, and math. When graduates from TTA leave, they have a career portfolio, which can include certifications attesting to technical expertise as well as letters of recommendation from teachers and companies that had hired them for school-sponsored internships. The student’s portfolio showcases knowledge and skills to a prospective employer, or can be submitted to a college admissions office along with the standard application. Dubin notes that the school’s emphasis… Continue Reading →
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eric.ed.gov har udgivet: The Learning by Making (LbyM) project is funded by the U.S. Department of Education’s Investing in Innovation Fund (i3). As a five-year development project (2014-2018), Sonoma State University (SSU), in partnership with high-need schools and districts, has been developing an innovative, integrated high school Science, Technology, Engineering, and Mathematics (STEM) curriculum. The curriculum consists of Disciplinary Core Ideas (DCIs) in earth science and biology as described in the Next Generation Science Standards (NGSS, 2013) and utilizes an easy-to-use Logo programming language that conducts data transfer and network communications in support of student-designed investigations. The purpose of this study is to understand how LbyM is implemented in high school classrooms in rural environments, to observe the influences of this curriculum on student learning and engagement, and to explore… Continue Reading →
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