原子有什么感觉?:通过ELI-Chem环境了解化学键的力和能量

Proceedings of the Interaction Design and Children Conference Pub Date : 2020-06-21 DOI:10.1145/3392063.3394416

Asnat R. Zohar, S. Levy

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引用次数: 1

摘要

我们开发并探索了四种身体参与程度——视频、鼠标、操纵杆和触觉——以帮助化学学生掌握化学键中涉及的吸引-排斥力和能量变化。这些话题很难把握，因为在日常生活中没有类似的对立力量同时发生。我们的理论框架是基于具身学习理论，通过将概念学习与身体经验联系起来。本研究采用定量方法对48名高中生进行前测-干预-后测设计。研究结果显示，在所有条件下，准确性都有所提高，反应时间有所减少。然而，与其他条件相比，只有触觉条件显示出更大的准确性增加，而反应时间没有相应的减少。本研究强调了具身学习对理解的独特贡献:缺乏先前的具身经验，学习与力相关的非视觉概念，以及与所学概念的高度一致性。

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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What do atoms feel?: understanding forces and energy in chemical bonding through the ELI-Chem environment

We developed and explored four degrees of bodily engagement - video, mouse, joystick and haptic - to support chemistry students in grasping the attraction-repulsion forces and energy changes involved in chemical bonding. These topics are difficult to grasp as there are no analogues from everyday life for opposing forces happening simultaneously. Our theoretical framework is based on embodied learning theory by relating conceptual learning to bodily experiences. The study uses quantitative methods with 48 high-school students in a pretest-intervention-posttest design. Findings showed an increase in accuracy and a decrease in response time in all conditions. Only the haptic condition showed a significantly larger increase in accuracy, however, not a corresponding decrease in response-time compared to other conditions. This study highlights the states in which embodied learning uniquely contributes to understanding: absence of prior embodied experience, learning about a nonvisual concept related to forces, and a high congruence with the concept learned.

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Proceedings of the Interaction Design and Children Conference

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