打破教育障碍:利用虚拟现实技术加强高效液相色谱学习

IF 2.5 3区 教育学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Mae Taylor, Nazrul Bin Abdullah, Ayah Al-Dargazelli, Mireia Benito Montaner, Fatma Kareem, Amy Locks, Zijing Cao, Benjamin Bowles, Jean Charles Sarraf, Tamara Fajinmi, Zaid Muwaffak, Cory Beckwith, Gary N. Parkinson, Zoë A. E. Waller, Blanka R. Szulc, Stephen T. Hilton
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引用次数: 0

摘要

本研究侧重于高效液相色谱(HPLC)实践教学的创新方法,特别是探索虚拟现实(VR)在本科生教育中的应用。传统上,由于学生人数众多且这些系统的成本过高,本科生接触高效液相色谱仪器的机会有限。为了克服这些挑战,我们开发了自己的内部多用户 VR 软件,以及实验室中 HPLC 仪器的 VR 数字孪生模型,并在培训环境中放置了多个副本,旨在模拟逼真、互动和身临其境的 HPLC 学习环境。对其有效性的调查包括一组以前没有 HPLC 经验的本科一年级学生,目的是评估学生群体对 VR 学习环境的接受程度。VR 软件的使用对学生参与 HPLC 培训产生了积极影响。调查结果显示,大多数学生都非常喜欢 VR 课程,许多学生表示对实际操作的兴趣有所提高,并自称比使用文本或 PowerPoints 学得更好,不过还需要进行正式评估,以量化 VR 对学习成果的影响。值得注意的是,学生们报告说,他们对仪器的操作理解更加自信,对基本理论概念的掌握也更加深刻。鉴于这些发现,我们建议,配备了实验室设备数字孪生体的 VR 学习环境可以大大提高实践教学效果,尤其是在受设备可及性限制的地区。因此,这项工作为 VR 学习环境在重塑本科教育中高效液相色谱实践教学的潜力提供了令人信服的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Breaking the Access to Education Barrier: Enhancing HPLC Learning with Virtual Reality

Breaking the Access to Education Barrier: Enhancing HPLC Learning with Virtual Reality
This research focuses on an innovative approach to the practical teaching of High Performance Liquid Chromatography (HPLC), specifically exploring the application of Virtual Reality (VR) in undergraduate education. Traditionally, the exposure to HPLC instrumentation for undergraduates has been limited due to a substantial student population and the prohibitively high costs of these systems. To overcome these challenges, we developed our own in-house multi-user VR software, as well as a VR digital twin model of HPLC instruments in our laboratory and placed multiple copies of these in a training environment, aiming to simulate a realistic, interactive, and immersive learning HPLC environment. The investigation of its effectiveness included a group of first year undergraduate students with no previous HPLC experience, aiming to assess the reception of the VR learning environment among a student cohort. The use of the VR software positively influenced student engagement with HPLC training. Survey results indicate that the majority of students greatly enjoyed the VR sessions, with many students reporting a heightened interest in practicals and self-reporting that they learned better than they would have using text or PowerPoints, though formal assessment is needed to quantify its impact on learning outcomes. Notably, students reported a heightened confidence in their operational understanding of the instrument and exhibited a more profound grasp of the underlying theoretical concepts. In light of these findings, we propose that VR learning environments equipped with digital twins of laboratory equipment can greatly enhance practical teaching, particularly in areas constrained by equipment accessibility. This work, therefore, offers compelling insights into the potential of VR learning environments in reshaping HPLC practical teaching in undergraduate education.
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来源期刊
Journal of Chemical Education
Journal of Chemical Education 化学-化学综合
CiteScore
5.60
自引率
50.00%
发文量
465
审稿时长
6.5 months
期刊介绍: The Journal of Chemical Education is the official journal of the Division of Chemical Education of the American Chemical Society, co-published with the American Chemical Society Publications Division. Launched in 1924, the Journal of Chemical Education is the world’s premier chemical education journal. The Journal publishes peer-reviewed articles and related information as a resource to those in the field of chemical education and to those institutions that serve them. JCE typically addresses chemical content, activities, laboratory experiments, instructional methods, and pedagogies. The Journal serves as a means of communication among people across the world who are interested in the teaching and learning of chemistry. This includes instructors of chemistry from middle school through graduate school, professional staff who support these teaching activities, as well as some scientists in commerce, industry, and government.
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