eric.ed.gov har udgivet: The National Science Foundation’s Math and Science Partnership (MSP) program (NSF, 2012) supports partnerships between K-12 school districts and institutions of higher education (IHEs) and has been funding projects to improve STEM education in K-12 since 2002. As of 2011, a total of 178 MSP projects have received support as part of a STEM education investment of over $900 million. One important movement over the past decade has been increasing interest in incorporating engineering and design content in K-12 teaching and learning, a strategy validated in the National Research Council report, “A Framework for K-12 Science Education: Practices, Crosscutting Concepts and Core Ideas” (NRC, 2011). The goals of K-12 engineering and design content traditionally have been to prepare students to think critically, creatively, and independently by solving… Continue Reading →
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eric.ed.gov har udgivet: Much of the science education community has advocated for a new vision of instruction emphasizing inquiry-based teaching (National Research Council, 1996). Unfortunately, as Anderson (2002) notes, many science teachers are not adopting inquiry-based teaching practices for a variety of reasons such as that teachers commonly favor text-book approaches to instruction. To facilitate the adoption of reformed teaching, Luehmann (2007) argues that teacher education must address the development of one’s professional identity as a teacher. Unfortunately, little is known about the beliefs, values, experiences, and ways of acting and interacting that teachers in science and related fields use to form their professional teaching identity. Through repeated interviews with 18 graduate students who taught science and related disciplines, this study outlined generalizations defining the developmental trajectory of science educators’… Continue Reading →
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eric.ed.gov har udgivet: This work summarizes the didactic design and introductory outcomes in an educative program, involving six math and physics university courses for engineers, based on the use and construction of widgets. Widgets were generated under Project Oriented Learning and blended learning methodologies. In the program, widgets previously generated by teachers are firstly used by students to appropriate basic and middle concepts. After, students were requested to generate their own widgets to develop complex thinking skills, applying related concepts but involving alternative situations. Design was based on curriculum integration to build mathematical, technical and visual representations of the problems and concepts involved. Wolfram Alpha, Desmos and Mathtab widget developers were used to generate ad hoc activities in terms of their capabilities and course requirements. Post-test only results of students’… Continue Reading →
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eric.ed.gov har udgivet: This study focuses on understanding the implementation of three interactive digital products in the first-year foundational courses (General Chemistry, Physics I & II, Calculus I & II) at the Faculty of Engineering, and the perceptions of teaching and learning experiences with those products. The data were gathered from the instructors, students and Distance Education Unit Coordinator through in-depth interview of purposeful sample of the academics, student online survey and product platform usage data. The study reveals the nuances of the institutional change prompted by the initiatives for advancing teaching and learning through the integration of technology. The study findings are discussed through themes that address the benefits of integrating digital products as well as challenges experienced by the instructors, students, and by the institution during this period… Continue Reading →
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