Assessing the formation of misconceptions when students learn PV using current curricular tools

Katherine G. Nelson, Sarah K. Brem, C. Foster, S. Bowden, J. Husman, C. Honsberg
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Abstract

The purpose of this work is to discover the misconceptions students have related to PV content, in light of the way in which the content is portrayed curricular tools, namely through simulations. Undergraduate students were recruited from their first circuits courses (N=20) to participate in this study. Participants in the study were presented with PV related content displayed through a simulation previously developed by the PVCDROM. They observed these simulations and were asked associated questions, questions designed to uncover their misconceptions formed as a result of engaging with these simulations. Findings indicate that students hold misconceptions related to both of the simulations utilized; diffusion and drift. The results of this study indicate a need to conduct a deeper level of analysis of the participants' responses, which could potentially provide future evidence related to misconception formation as a result of how simulations related to drift and diffusion are presented using curricular tools. Diffusion and drift should be presented such that it discourages the formation of misconceptions, and ultimately removes barriers to learning PV.
评估学生使用现有课程工具学习PV时误解的形成
这项工作的目的是发现学生对PV内容的误解,根据内容被描绘为课程工具的方式,即通过模拟。本研究选取初学电路课程的本科生(N=20)参与。通过PVCDROM先前开发的模拟,向研究参与者展示了PV相关的内容。他们观察这些模拟,并被问及相关的问题,这些问题旨在揭示他们因参与这些模拟而形成的误解。研究结果表明,学生对所使用的两种模拟都有误解;扩散和漂移。本研究的结果表明,有必要对参与者的反应进行更深层次的分析,这可能会为未来的误解形成提供证据,因为与漂移和扩散相关的模拟是如何使用课程工具呈现的。扩散和漂移应该以这样的方式呈现,以阻止误解的形成,并最终消除学习PV的障碍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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