eric.ed.gov har udgivet: This paper overviews strategies employed by the Appalachian Rural Systemic Initiative (ARSI) to implement systemic reform in math, science, and technology education in rural Appalachia. ARSI is one of four Rural Systemic Initiative projects funded by the National Science Foundation to target regions characterized by low population density and high levels of poverty. The initiative targeted 66 counties encompassing 89 school districts in Kentucky, North Carolina, Ohio, Tennessee, Virginia, and West Virginia. The ARSI project is based on two fundamental strategies: school and community-based action and technology as a tool for access. Specifically, the initiative involved the creation of six regional resource collaboratives made up of key organizations such as universities and community colleges, business and industry, federal and state agencies, teacher enhancement projects, exemplary schools, and… Continue Reading →
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eric.ed.gov har udgivet: The Center on Standards, Alignment, Instruction, and Learning (C-SAIL) examines how college- and career-readiness (CCR) standards are implemented, whether they improve student learning, and what instructional tools measure and support their implementation. Established in July 2015 and funded by the Institute of Education Sciences (IES) of the U.S. Department of Education, C-SAIL has worked closely with its five partner states–California, Kentucky, Massachusetts, Ohio, and Texas–to explore their experiences with CCR standards-based reform, particularly regarding students with disabilities (SWDs) and English language learners (ELLs). This report examines how the state of California is continuing CCR standards implementation during a time of transition. For the purposes of this report and in keeping with C-SAIL’s focus, the concentration is on implementation of California’s English language arts (ELA) and math standards.… 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: One central component of a great school system is a clear set of expectations, or standards, that educators help all students reach. In Iowa, that effort is known as the Iowa Core. The Iowa Core represents the statewide academic standards, which describe what students should know and be able to do in math, science, English language arts, and social studies. The Iowa Core also addresses 21st Century Skills such as financial and technology literacy. These state standards provide Iowa students, parents, teachers, and other stakeholders with a clear, common understanding of what students are expected to learn at every grade level, regardless of where they live. The standards establish what Iowa students need to learn, but not how to teach. Local schools and teachers continue to create… 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: This issue offers a collection of timely topics focused on mathematics and science education. It uncovers the past, present, and future of the national standards movement in mathematics and science education with two articles entitled “Setting Standards for Excellence” and “On the Road to REAL Progress.” A close-up look at students doing real-life water ecology research is provided. This issue also features articles on “Math Wars,” teacher shortages, and curriculum research centers. (ASK) Link til kilde
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eric.ed.gov har udgivet: “Informed math self-placement,” a program implemented at American River College in Sacramento, California, to determine students’ readiness for college-level math, has been in place for three years. This case study describes the development and implementation of math self-placement at American River. Math self-placement consists of a Web-based testing and information site that allows students, or potential students, to gauge their level of math proficiency prior to talking with a counselor or enrolling in classes. Math faculty members and administrators are hopeful that self-placement, as an alternative to traditional placement, will provide students with concrete knowledge and experience about math standards, since self-placement includes actual self-assessment instruments (tests), developed and approved by the college’s math faculty. American River’s experience in math self-placement is noteworthy in its potential to… Continue Reading →
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eric.ed.gov har udgivet: This document presents materials that were developed for a presentation explaining how the Gordon Cooper Technology Center in Shawnee, Oklahoma, obtained state certification for the geometry and trigonometry program that is embedded in its residential and commercial construction program and enables its students to receive high school geometry or trigonometry credit and thereby meet the Oklahoma PASS (Priority Academic Student Skills) objectives for high school math credit. The document begins with a brief description of the presentation’s objectives and content. The remainder of the document consists of the following presentation handouts: (1) excerpts from Oklahoma legislation regarding high school graduation requirements affecting students attending technology centers; (2) the program approval letter sent to the technology center; (3) a description of the math program approval process; (4) information… Continue Reading →
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eric.ed.gov har udgivet: This article describes a 21st century how-to model for successful career and technical education (CTE) programs. The Geometry in Construction program is the brainchild of two educators, a CTE and a math teacher, who wanted to design a rigorous geometry course taught through a project-based curriculum. This article discusses how they did it, and how one can use the basic principles they outline to do some core content integration of one’s own. Link til kilde
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eric.ed.gov har udgivet: Rural schools, like others in the nation, are enjoined to use national and state standards as the basis for educational reform. Moreover, national standards for mathematics education were established early (1989) and have been disseminated widely. Nevertheless, little is known about the dynamics of standards-based reform of mathematics in rural schools. This paper reports findings from a set of four case studies of mathematics education in rural secondary schools to provide insights into the dynamics of instructional reform. Analysis of data from interviews, observations, and documents revealed two emergent themes: (1) math teachers address calls for improvement by building on traditional practices and (2) math teachers meld traditional and reform practices. Link til kilde
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