Connecting affordances of physical and virtual laboratory modes to engineering epistemic practices

IF 4.5 2区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
Samuel B. Gavitte, Milo D. Koretsky, Jeffrey A. Nason
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Abstract

Laboratory activities are central to undergraduate student learning in science and engineering. With advancements in computer technology, many laboratory activities have shifted from providing students experiments in a physical mode to providing them in a virtual mode. Further, physical and virtual modes can be combined to address a single topic, as the modes have complementary affordances. In this paper, we report on the design and implementation of a physical and virtual laboratory on the topic of jar testing, a common process for drinking water treatment. The assignment for each laboratory mode was designed to leverage the mode’s affordances. Correspondingly, we hypothesized each would elicit a different subset of engineering epistemic practices. In a naturalistic, qualitative study design based on laboratory mode (physical or virtual) and laboratory order (virtual first or physical first), we collected process, product, and reflection data of students’ laboratory activity. Taking an orientation that learning is participation in valued disciplinary practice, data were coded and used to characterize how students engaged with each laboratory mode. Results showed that the virtual laboratory elicited more conceptual epistemic practices and the physical laboratory more material epistemic practices, aligning with the affordances of each mode. When students completed the laboratory in the virtual mode first, students demonstrated greater engagement in epistemic practices and more positive perceptions of their learning experience in the virtual mode than when they completed the physical mode first. In contrast, engagement in the physical mode was mostly unaffected by the laboratory order.

Abstract Image

将物理和虚拟实验室模式的承受能力与工程学认识实践联系起来
实验室活动是理工科本科生学习的核心。随着计算机技术的进步,许多实验活动已从为学生提供物理实验模式转变为提供虚拟实验模式。此外,由于物理模式和虚拟模式具有互补性,因此可以将两者结合起来解决一个课题。在本文中,我们报告了以饮用水处理的常见工艺--罐子测试为主题的物理和虚拟实验室的设计和实施情况。每种实验室模式的任务设计都是为了充分利用该模式的能力。相应地,我们假设每种模式都会引发不同的工程认识实践子集。在基于实验模式(物理或虚拟)和实验顺序(虚拟先行或物理先行)的自然主义定性研究设计中,我们收集了学生实验活动的过程、产品和反思数据。以学习就是参与有价值的学科实践为导向,我们对数据进行了编码,用来描述学生是如何参与每种实验模式的。结果显示,虚拟实验室激发了更多的概念性认识实践,而物理实验室则激发了更多的物质性认识实践,这与每种模式的能力相一致。与先完成物理实验的学生相比,先完成虚拟实验的学生在认识实践方面表现出更大的参与度,对虚拟实验的学习体验也有更积极的看法。与此相反,学生在物理模式中的参与度大多不受实验顺序的影响。
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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来源期刊
Journal of Computing in Higher Education
Journal of Computing in Higher Education EDUCATION & EDUCATIONAL RESEARCH-
CiteScore
15.10
自引率
3.60%
发文量
40
期刊介绍: Journal of Computing in Higher Education (JCHE) contributes to our understanding of the design, development, and implementation of instructional processes and technologies in higher education. JCHE publishes original research, literature reviews, implementation and evaluation studies, and theoretical, conceptual, and policy papers that provide perspectives on instructional technology’s role in improving access, affordability, and outcomes of postsecondary education.  Priority is given to well-documented original papers that demonstrate a strong grounding in learning theory and/or rigorous educational research design.
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