Mixed methods study of student participation and self-efficacy in remote asynchronous undergraduate physics laboratories: contributors, lurkers, and outsiders.

IF 5.6 1区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
International Journal of Stem Education Pub Date : 2023-01-01 Epub Date: 2023-05-17 DOI:10.1186/s40594-023-00428-5
Drew Rosen, Angela M Kelly
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引用次数: 0

Abstract

Background: While laboratory practices have traditionally been conducted in-person, online asynchronous laboratory learning has been growing in popularity due to increased enrollments and the recent pandemic, creating opportunities for accessibility. In remote asynchronous learning environments, students have more autonomy to choose how they participate with other students in their laboratory classes. Communities of practice and self-efficacy may provide insights into why students are making their participation choices and how they are interacting with peers in asynchronous physics laboratory courses.

Results: In this mixed methods, explanatory sequential study, students in an introductory physics remote asynchronous laboratory (N = 272) were surveyed about their social learning perceptions and their physics laboratory self-efficacy. Three groups of students were identified based upon their self-reported participation level of communication with peers in asynchronous courses: (1) contributors, who communicated with peers via instant messaging software and posted comments; (2) lurkers, who read discussions on instant messaging software without posting comments; and (3) outsiders, who neither read nor posted comments to peer discussions. Analysis of variance with post hoc Tukey tests showed significant differences in social learning perceptions among contributors, lurkers, and outsiders, with a large effect size, and differences between contributing and lurking students' self-efficacy, with a small effect size. Qualitative findings from open-ended survey responses indicated contributors felt the structure of the learning environment, or their feeling of connectedness with other students, facilitated their desire to contribute. Many lurkers felt they could get what they needed through vicarious learning, and many expressed their lack of confidence to post relevant, accurate comments. Outsiders felt they did not have to, did not want to, or could not connect with other students.

Conclusions: While the classroom laboratory traditionally requires all students to participate in the learning process through active socialization with other students, students in a remote asynchronous laboratory may still gain the benefits of participation through lurking. Instructors may consider lurking in an online or remote science laboratory as a legitimate form of participation and engagement.

Abstract Image

远程异步本科物理实验室学生参与和自我效能的混合方法研究:贡献者、潜伏者和局外人。
背景:虽然实验室实践传统上是亲自进行的,但由于入学人数的增加和最近的疫情,在线异步实验室学习越来越受欢迎,为无障碍学习创造了机会。在远程异步学习环境中,学生有更多的自主权来选择如何与其他学生一起参与实验室课程。实践和自我效能社区可以深入了解学生为什么要做出参与选择,以及他们如何在异步物理实验室课程中与同龄人互动。结果:在这项混合方法、解释性顺序研究中,学生在介绍性物理远程异步实验室(N = 272名)的社会学习认知和物理实验室自我效能感进行了调查。根据他们自我报告的异步课程中与同龄人沟通的参与程度,确定了三组学生:(1)贡献者,他们通过即时通讯软件与同龄人沟通并发表评论;(2) 潜伏者,他们阅读即时通讯软件上的讨论而不发表评论;以及(3)局外人,他们既不阅读也不在同行讨论中发表评论。事后Tukey测试的方差分析显示,贡献者、潜伏者和局外人在社会学习认知方面存在显著差异,具有较大的效应大小,而贡献者和潜伏者的自我效能感之间存在差异,具有较小的效应大小。开放式调查的定性结果表明,贡献者认为学习环境的结构,或他们与其他学生的联系感,促进了他们的贡献愿望。许多潜伏者觉得他们可以通过替代性学习获得他们需要的东西,许多人表示他们没有信心发布相关、准确的评论。局外人觉得他们不必、不想或无法与其他学生建立联系。结论:虽然课堂实验室传统上要求所有学生通过与其他学生的积极社会化参与学习过程,但远程异步实验室的学生仍然可以通过潜伏获得参与的好处。讲师可能会认为潜伏在在线或远程科学实验室是一种合法的参与和参与形式。
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
International Journal of Stem Education
International Journal of Stem Education Social Sciences-Education
CiteScore
12.40
自引率
11.90%
发文量
68
审稿时长
13 weeks
期刊介绍: The International Journal of STEM Education is a multidisciplinary journal in subject-content education that focuses on the study of teaching and learning in science, technology, engineering, and mathematics (STEM). It is being established as a brand new, forward looking journal in the field of education. As a peer-reviewed journal, it is positioned to promote research and educational development in the rapidly evolving field of STEM education around the world.
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