DEVELOPMENT OF ASSEMBLR EDU-ASSISTED AUGMENTED REALITY LEARNING MEDIA ON THE TOPIC OF EFFECT OF SURFACE AREA AND TEMPERATURE ON REACTION RATE

JCER (Journal of Chemistry Education Research) Pub Date : 2022-08-15 DOI:10.26740/jcer.v6n1.p44-57

Briel Batis Tuta, J. Harta, Sarah Sani Purwasih

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引用次数: 2

Abstract

Understanding concepts at the submicroscopic and symbolic levels becomes challenge in studying subtopics of the effect of surface area and temperature because some parts are still abstract and difficult to understand. Creative and innovative learning media are needed to help learn concepts through visualization. This research aims to create product in the form of Augmented Reality assisted by Assemblr Edu that is valid, effective, and practical. This study is development research that adopts the modified Borg & Gall development model. The research subjects were 12 students of pre-service chemistry teachers. The research supporting instruments were validation sheets, test items, and response questionnaires. Data were analyzed using descriptive statistics and Aiken's V. The results showed that: (1) product fulfilled very valid criteria with average percentage of 91% with the results from the presentation and product use aspects of 90% (very valid), content aspect of 92% (very valid); language aspect by 92% (very valid); (2) the average test score of respondents after the trial is 75 which indicates that the results are good and the product is classified as effective; and (3) the average response to the product is 89% indicating that the product is very good and very practical for further use. This digital product is feasible to use and is recommended to support the understanding of the subtopic of the effect of surface area and temperature on the rate of chemical reactions.

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以表面面积和温度对反应速率的影响为主题的装配式教育辅助增强现实学习媒体的开发

在亚微观和符号层面上理解概念是研究表面积和温度效应子主题的挑战，因为有些部分仍然是抽象的，难以理解。需要创造性和创新性的学习媒体来帮助通过可视化学习概念。本研究的目的是在assembly Edu的辅助下，以增强现实的形式创造有效、有效和实用的产品。本研究为开发研究，采用改进的Borg & Gall开发模型。研究对象为12名职前化学教师学生。研究支持工具为验证表、测试项目和问卷调查。采用描述性统计和Aiken's v对数据进行分析，结果表明:(1)产品达到非常有效标准的平均百分比为91%，其中演示和产品使用方面的结果为90%(非常有效)，内容方面的结果为92%(非常有效);语言方面提高92%(非常有效);(2)被调查者试用后的平均测试分数为75分，表明效果较好，产品为有效;(3)对该产品的平均反应为89%，表明该产品非常好，对于进一步使用非常实用。这个数字产品是可行的，建议用于支持理解表面面积和温度对化学反应速率的影响的子主题。

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JCER (Journal of Chemistry Education Research)

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