连接(主束)
任务(项目管理)
数学教育
科学与工程
计算机科学
工程类
系统工程
工程伦理学
心理学
机械工程
作者
Ravishankar Chatta Subramaniam,Nikhil Borse,Amir Bralin,Jason Morphew,Carina M. Rebello,N. Sanjay Rebello
出处
期刊:Physical review
[American Physical Society]
日期:2025-03-10
卷期号:21 (1)
被引量:3
标识
DOI:10.1103/physrevphyseducres.21.010118
摘要
Reform documents advocate for innovative pedagogical strategies to enhance student learning. A key innovation is the integration of science and engineering practices through engineering design (ED)-based physics laboratory tasks, where students tackle engineering design problems by applying physics principles. While this approach has its benefits, research shows that students do not always effectively apply scientific concepts, but instead rely on trial-and-error approaches, and end up their way to a solution. This leads to what is commonly referred to as the —that students do not always consciously apply science concepts while solving a design problem. However, as obvious as the notion of a may appear, there seems to exist no consensus on the definitions of and , further complicating the understanding of this gap. This qualitative study addresses the notion of the design-science gap by examining student groups’ discussions and written lab reports from a multiweek ED-based undergraduate introductory physics laboratory task. Building on our earlier studies, we developed and employed a nuanced, multilayered coding scheme inspired by the Gioia Framework to characterize and . We discuss how student groups engage in various aspects of design and how they apply physics concepts and principles to solve the problem. In the process, we demonstrate the interconnectedness of students’ design thinking and science thinking. We advocate for the usage of the term as opposed to to deepen both design and science thinking. Our findings offer valuable insights for educators in design-based science education.
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