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Eric.ed.gov – Mathematics Teaching for the Future

eric.ed.gov har udgivet: The universities and faculties which educate teachers of mathematics for teaching pupils/students of any age group from pre-school age to higher education carefully monitor and compare valuable results of this research, detect the areas in which the mathematical achievements of pupils should be improved at the national level and propose the ways to improve the quality of education and achieve better learning outcomes. We deem particularly valuable contributions of the researchers regarding the samples of poorer mathematical achievements at the “local level” in neighbouring countries, as well as the presentation of examples of good practice by means of which we pave the path towards better achievements of pupils and, consequently, the improvement in the quality of teaching mathematics at the “local,” as well as the global level.… Continue Reading

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Eric.ed.gov – PLATO[R] Achieve Now. What Works Clearinghouse Intervention Report

eric.ed.gov har udgivet: “PLATO[R] Achieve Now” is a software-based curriculum for the elementary and middle school grades. Instructional content is delivered via the PlayStation Portable (PSP[R]) system, allowing students to access learning materials in various settings. Software-based assessments are used to customize individual instruction, allowing students to learn at their own pace with content appropriate for their skill level. “PLATO[R] Achieve Now” is aligned with the National Council of Teachers of Mathematics guidelines. The What Works Clearinghouse (WWC) reviewed 13 studies on “PLATO[R] Achieve Now.” One of these studies meets WWC evidence standards; the remaining 12 studies do not meet either WWC evidence standards or eligibility screens. Based on the one study, the WWC found no discernible effects for the math achievement domain. The one study is a randomized controlled… Continue Reading

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Eric.ed.gov – Improving Math and Science Assessment. Report on the Secretary’s Third Conference on Mathematics and Science Education (Washington, DC, September 20-21, 1993).

eric.ed.gov har udgivet: The third conference on improving mathematics and science assessment brought together more than 550 educators, researchers, and policymakers. Recommendations and information from the conference are incorporated into this report. Conference consensus was that students must recognize that there is more to assessment than grades and scores and begin to see assessment as a crucial and integral part of education. They should assume increasing responsibility for documenting and reflecting on their own progress as they move through school. Parents and the public must hold high expectations for instruction and for student participation. Teachers will hold all students, regardless of their backgrounds, to high standards and will recognize that assessment cannot be separated from learning. Principals and other administrators must oversee the reform of mathematics and science assessment and… Continue Reading

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Eric.ed.gov – A Final Case Study of SCALE Activities at California State University, Northridge: How Institutional Context Influenced a K-20 STEM Education Change Initiative. WCER Working Paper No. 2009-5

eric.ed.gov har udgivet: This qualitative case study reports on processes and outcomes of the National Science Foundation (NSF)-funded System-Wide Change for All Learners and Educators (SCALE) project at the California State University, Northridge (CSUN). It addresses a critical challenge in studying systemic reform in complex organizations: the lack of methodologies that incorporate technical, social, cultural, and cognitive elements. Guiding questions include (a) how the institutional context influenced the project, (b) whether project activities affected science, technology, engineering, and mathematics (STEM) instruction, interdisciplinary collaboration on preservice programs, and inter-institutional collaboration on in-service programs, and (c) if and how change initiatives are accepted and incorporated. In-depth interviews (N = 34), relevant documents, and observation data were collected in 2006 and 2007. Findings identified several factors that supported and several that inhibited achievement… Continue Reading

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Eric.ed.gov – Proceedings of the International Association for Development of the Information Society (IADIS) International Conference on Mobile Learning (12th, Vilamoura, Algarve, Portugal, April 9-11, 2016)

eric.ed.gov har udgivet: These proceedings contain the papers of the 12th International Conference on Mobile Learning 2016, which was organized by the International Association for Development of the Information Society, in Vilamoura, Algarve, Portugal, April 9-11, 2016. The Mobile Learning 2016 Conference seeks to provide a forum for the presentation and discussion of mobile learning research which illustrate developments in the field. Full papers presented in these proceedings include: (1) Mobile Devices and Spatial Enactments of Learning: iPads in Lower Secondary Schools (Bente Meyer); (2) NetEnquiry–A Competitive Mobile Learning Approach for the Banking Sector (Marc Beutner, Matthias Teine, Marcel Gebbe and Lara Melissa Fortmann); (3) M-Learning Challenges in Teaching Crosscutting Themes in the Education of Young People and Adults (Marcos Andrei Ota and Carlos Fernando de Araujo Jr); (4) Mobile… Continue Reading

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Eric.ed.gov – Sex Equity and Math Achievement: A Summary of Research and Recommendations.

eric.ed.gov har udgivet: Influences on sex equity in mathematics achievement are discussed in this summary of research and recommendations. Information on the following topics is presented, with each finding referenced to a source or sources in the bibliography provided at the end of the report: mathematics enrollment, influences on mathematics participation, predicting mathematics achievement, sex differences in attitudes toward mathematics and in mathematics achievement, visual/spatial skills, parents, peers and significant others, teachers, classroom environment, school structure, testing, advanced placement girls, career aspirations and educational goals, and recommendations to parents, teachers, and school personnel. Forty-four references are included in the bibliography. (MNS) Link til kilde

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Eric.ed.gov – Proceedings of the 2011 Annual Meeting of the Canadian Mathematics Education Study Group = Actes De La Rencontre Annuelle 2011 Du Groupe Canadien D’étude en Didactique Des Mathématiques (35th, St. John’s, Newfoundland, Canada, June 10-14, 2011)

eric.ed.gov har udgivet: This submission contains the Proceedings of the 2011 Annual Meeting of the Canadian Mathematics Education Study Group (CMESG), held at Memorial University of Newfoundland in St. John’s, Newfoundland. The CMESG is a group of mathematicians and mathematics educators who meet annually to discuss mathematics education issues at all levels of learning. The aims of the Study Group are: to advance education by organizing and coordinating national conferences and seminars to study and improve the theories of the study of mathematics or any other aspects of mathematics education in Canada at all levels; and to undertake research in mathematics education and to disseminate the results of this research. These proceedings include plenary lectures, working group reports, topic session descriptions, new PhD reports, and summaries of ad hoc and… Continue Reading

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Eric.ed.gov – Responding to the Crisis in Math and Science Teaching: Four Initiatives. Final Report.

eric.ed.gov har udgivet: Four nontraditional teacher education programs to attract and train mathematics and science teachers are described. Three of the programs are aimed at midcareer professionals; the fourth is aimed at recent college graduates who did not prepare to become teachers as undergraduates. All are small programs; they provide models for other institutions to follow. The programs are at Harvard University, the University of Massachusetts, the University of Vermont, and Washington University in St. Louis, Missouri. The study was organized around six research questions: (1) What are the characteristics of these programs? (2) What are the characteristics of their students? (3) What attracted the students to the programs? (4) What are students’ evaluations of the programs? (5) What are the career plans and motivations of the students? and (6)… Continue Reading

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Eric.ed.gov – The Cognitive Science behind the Common Core

eric.ed.gov har udgivet: Raising academic standards has been part of the education policy discourse for decades. As early as the 1990s, states and school districts attempted to raise student achievement by developing higher standards and measuring student progress according to more rigorous benchmarks. However, the caliber of the standards–and their assessments–varied greatly from state to state. For example, Massachusetts adopted some of the highest standards and most challenging exams in the country and has some of the highest-achieving students in the nation. On the other hand, Mississippi set a low bar, and the state’s students are often ill prepared for college and careers. Recognizing that the previous patchwork system did not work, a group of bipartisan governors and state superintendents came together to develop a shared set of more rigorous,… Continue Reading

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Eric.ed.gov – The State’s Prime Numbers

eric.ed.gov har udgivet: This standards review is the first in a series of annual reviews of the Colorado Model Content Standards. Its purpose is to identify student performance over time on measures of exiting mathematics standards, identify ways to affirm and strengthen standards and more clearly articulate the practices used by Colorado schools to promote student achievement to those standards. Discussion areas include: (1) national overview of K-12 mathematics; (2) math standards and achievement in Colorado; (3) input from educators; (4) research and financial resources; and (5) characteristics of “math-successful” elementary and secondary schools. Ten recommendations are presented for improving mathematics teaching and performance: (1) Be clear about the math topics students are expected to know at each grade level; (2) Be clear about what specific proficient student work looks… Continue Reading