eric.ed.gov har udgivet: For the thirty-ninth time, the Research and Theory Division of the Association for Educational Communications and Technology (AECT) is sponsoring the publication of these Proceedings. Papers published in this volume were presented at the annual AECT Convention in Las Vegas, Nevada. The Proceedings of AECT’s Convention are published in two volumes. Volume 1 contains 24 papers dealing primarily with research and development topics. Fifteen papers dealing with the practice of educational communications and technology are contained in Volume 2. The 15 papers included in Volume 2 are: (1) Teaching Strategy for the Development of Creative Thinking of Future Educators of Mexico, through ICT (Clotilde Lomeli Agruel, Aidee Espinosa Pulido, Julieta López Zamora, and Francisco Javier Arriaga Reynaga); (2) Designing a Graduate Supervision MOOC for Faculty Development (Hawazen… Continue Reading →
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eric.ed.gov har udgivet: The Carl D. Perkins Career Technical Improvement Act of 2006 encourages integration of academic instruction to improve student learning, impact employment skills of students, and enhance problem-solving skills by using authentic real-world situations. Academic integration is accomplished by integrating concepts of English, math, science, technology, etc., into career and technical education (CTE) course content, or by two teachers from different content areas collaborating to align and team-teach course standards. This article describes a project that provided an opportunity for educators in Greenhouse Management, Nutrition and Foods, and Family and Consumer Sciences (FACS) to align course standards and curriculum while collaborating on plans to address the problem of obesity in the local school and community. With the help of a hydroponic garden, university researchers collaborated with CTE teachers… Continue Reading →
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eric.ed.gov har udgivet: There is considerable national interest in STEM initiatives, but yet there is little discussion concerning what STEM means in terms of a curriculum concept to be applied to school programming. This article focuses on STEM as a curriculum concept. First, STEM programming is discussed in terms of separate subjects, correlated and broad fields curriculum models. The issue of subject structure is examined. A distinction also is made between the four STEM subjects in terms of formal and applicative uses of knowledge. Second, some practical programming issues are discussed. These include the almost exclusive focus on science and math to the exclusion of technology and engineering; the challenge of serving multiple student populations; and the issue of what to do with the “T” in STEM. A concluding section… Continue Reading →
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eric.ed.gov har udgivet: This study was conducted to describe a high school engineering curriculum, identify teaching strategies used to increase math and science literacy, and discover challenges and constraints that occur during its development and delivery, as well as what strategies are used to overcome these obstacles. Semi-structured interviews were conducted with the engineering instructor. In addition, students were observed and curriculum documents, teacher lesson plans, and teacher resources were examined. Concepts created the platform for delivery, curricular trial and error was at work, science and engineering competitions were leveraged as a basis for learning activities, and project based learning and teaching was critical. There was a clear emphasis on creative thought and work. Assessment of student learning was dubious and elusive and stakeholders tended to be uneasy with this… Continue Reading →
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eric.ed.gov har udgivet: Recently, the Department of Teacher Education and the Liberal Studies Program in the School of Education at California State University, Dominguez Hills (CSUDH) collaborated in developing a Blended Liberal Studies/Teacher Education Program (BLTEP) for upper division transfer students interested in completing an elementary credential. The BLTEP curriculum blends the regular Liberal Studies Program with the elementary credential program. Students take both subject matter and pedagogy courses concurrently, as well as a set of blended content and pedagogy courses in science, social science, and mathematics. This article details the curriculum development process of the blended mathematics course, “LBS 360 Math Content and Methods.” The content in this course combines the study of real numbers and problem solving with pedagogy for teaching math content to elementary-aged students. The blending… Continue Reading →
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eric.ed.gov har udgivet: Over the past seven years, research teams from the National Research Center for Career and Technical Education (NRCCTE) have been at work testing curriculum integration models. Each of three studies–Math-in-CTE, Authentic Literacy-in-CTE, and Science-in-CTE–has focused on the development of pedagogic frameworks and delivery of professional development. An unintended but powerful outcome of this research has been a growing respect between the career and technical education (CTE) and academic worlds and changing perspectives about CTE and its contribution to student academic achievement. Link til kilde
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eric.ed.gov har udgivet: This submission contains the Proceedings of the 2013 Annual Meeting of the Canadian Mathematics Education Study Group (CMESG), held at Brock University in St. Catharines, Ontario. 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 poster sessions.… 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: In a series of mathematics education workshops in which teachers from adult basic education and vocational education worked together to design teaching situations on particular contents in mathematics in order to make explicit and bring into reflection the teaching strategies used by each group. The workshops constituted a common space of interaction for jointly designing teaching situations and creating common discourses that narrowed the distance between normative curriculum and actual teaching or real curriculum. In order for adult educators to teach effectively they must fulfill the following conditions: (1) they must provide a context for the teaching; (2) the knowledge taught must constitute a solution adapted to the problem; (3) there must be didactic variables that lead to the development of logic in a fruitful way; and… Continue Reading →
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eric.ed.gov har udgivet: TOPS, a set of materials designed to improve problem solving instruction, was evaluated in two large urban school districts from Fall 1980 to Spring 1982. At Site A, the program was implemented at the middle school level (grades 5-8), where most mathematics teachers were specialists; they accepted the problem-solving activities after some initial hesitation. At Site B, the program was implemented in grades 3-8, though most often in grades 4 and 5, usually by teachers who were not mathematics specialists. They varied in their belief that the activities would improve problem-solving ability, and, even though in year 2 they were allowed to develop lessons involving problem-solving strategies tied more closely to textbooks and tests, problem solving was never completely accepted by all teachers. At Site A, 80… Continue Reading →
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