Grade 8 Students’ Level of Conceptual Understanding of Electric Circuits Using Virtual Manipulative

Proceedings of International Conference on Teaching, Education and Learning Conference Pub Date : 2021-12-14 DOI:10.32789/tel.2021.1004

Jesserene P. Bantolo, Dr. Voltaire M. Mistades

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Abstract

The challenge to Physics teachers is finding ways to address students’ alternative conceptions and misconceptions. Traditional instruction often fails to change these ideas because students deeply hold them. In this study, we report the effects of using virtual manipulatives on students’ conceptual understanding of the topic, electricity. In learning the concepts on DC circuits, energy, current-voltage-resistance relationship, and potential difference, the students used the Physics Education Technology (PhET) interactive simulations project of the University of Colorado, particularly the Circuit Construction Kit DC Virtual Lab simulation app. The virtual activities that the students conducted were able to augment the class discussion. The results of the post-instruction administration of the assessment instrument, Determining and Interpreting Resistive Electric Circuits Test (DIRECT), revealed that the simulations helped the students analyze the physical aspects of electric circuits. Technology integration in classroom discussion of electric circuits effectively engaged students to learn more about Physics concepts.

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八年级学生虚拟操作电路概念理解水平

物理教师面临的挑战是找到方法来解决学生的另类观念和误解。传统的教学往往不能改变这些观念，因为学生们根深蒂固。在这项研究中，我们报告了使用虚拟教具对学生对主题“电”的概念理解的影响。在学习直流电路、能量、电流-电压-电阻关系和电位差的概念时，学生们使用了科罗拉多大学的物理教育技术(PhET)交互式模拟项目，特别是电路构建工具包DC虚拟实验室模拟应用程序。学生们进行的虚拟活动能够增加课堂讨论。在课后对评估工具——判定和解释电阻电路测试(DIRECT)的管理结果显示，模拟有助于学生分析电路的物理方面。在电路的课堂讨论中整合技术，有效地吸引学生学习更多的物理概念。

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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Proceedings of International Conference on Teaching, Education and Learning Conference

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