Teaching chemistry in the metaverse: the effectiveness of using virtual and augmented reality for visualization

IF 1.9 Q2 EDUCATION & EDUCATIONAL RESEARCH Frontiers in Education Pub Date : 2024-01-05 DOI:10.3389/feduc.2023.1184768

E.M. Amirbekova, Nailya Shertayeva, Ekaterina Mironova

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Abstract

The metaverse is a promising platform for learning that all participants in the teaching and learning process may find appealing. This study aims to investigate the effectiveness of using metaverse-related visualization technologies, such as Virtual Reality (VR) and Augmented Reality (AR), in teaching chemistry.The study has an experimental research design and uses the following tools to collect data: Dombrovskaya’s Motivation for Learning Scale, the SAMOAL Questionnaire, and the Self-management Questionnaire. The study sample includes 236 first-year undergraduate students studying chemistry at the Faculty of Natural Sciences.Results suggest that the integration of immersive VR/AR technologies in chemistry education signifies the beginning of a metaverse transition; the process, however, is in its early stages.The study concludes that immersive VR/AR technologies have an advantage over traditional programs in terms of motivation and competence development. Future research can investigate the impact of VR/AR technologies on students’ anxiety and build a model for predicting student achievements in the metaverse-based chemistry classroom.

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元宇宙中的化学教学：使用虚拟现实和增强现实技术进行可视化的有效性

元宇宙是一个前景广阔的学习平台，教学过程中的所有参与者都可能会发现它的吸引力。本研究旨在探讨在化学教学中使用虚拟现实（VR）和增强现实（AR）等与元空间相关的可视化技术的有效性：本研究采用实验研究设计，使用以下工具收集数据：Dombrovskaya 学习动机量表、SAMOAL 问卷和自我管理问卷。研究样本包括 236 名在自然科学学院学习化学的一年级本科生。研究结果表明，在化学教育中整合沉浸式 VR/AR 技术标志着元宇宙过渡的开始；然而，这一过程还处于早期阶段。研究得出结论认为，与传统课程相比，沉浸式 VR/AR 技术在学习动机和能力培养方面具有优势。未来的研究可以调查 VR/AR 技术对学生焦虑的影响，并建立一个模型来预测学生在基于元数据的化学课堂上取得的成绩。

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