使用数字教育内容的动机——高等教育中科学和其他STEM学生之间的差异

IF 2.2 Q2 EDUCATION, SCIENTIFIC DISCIPLINES Chemistry Teacher International : best practices in chemistry education Pub Date : 2023-08-21 DOI:10.1515/cti-2022-0035
Carolin Flerlage, Andrea Bernholt, I. Parchmann
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引用次数: 0

摘要

摘要数字化使数字教育内容在高等教育和科学领域的学习中变得越来越重要。对影响使用数字教育内容意图的个人因素(如动机、自我效能感、态度)的调查是设计和实施合适内容的主要研究兴趣(Hsu,J.-Y,Chen,C.-C,&Ting,P.-F.(2018)。理解MOOC持续性:社会支持理论的实证检验。交互式学习环境,26(8),1100–1118),迄今为止尚未按学科进行区分。遵循计划行为理论的问卷调查(Fishbein,M.,&Ajzen,I.(2010)。预测和改变行为:理性行动方法。心理学出版社。http://site.ebrary.com/lib/alltitles/docDetail.action?docID=10462474)旨在分析STEM学生的个人信仰和他们使用数字教育内容的个人动机之间的关系。2021年11月,共有来自德国8所大学的662名STEM学生参与了这项研究。分析显示,STEM学生群体内部存在差异:与其他STEM学生相比,理科学生的数字技能评分较低,预计会遇到更多困难,但在动机方面没有差异。对于理科学生来说,与其他STEM学生不同,动机只能通过态度和数字技能来预测。此外,目前的研究结果表明,首先,设计的重点应该放在学习环境上,而不是数字工具上;其次,学生们在很大程度上没有认识到合作的潜力。
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Motivation to use digital educational content – differences between science and other STEM students in higher education
Abstract Digitalization leads to an increased importance of digital educational content for learning in higher education as well as in the sciences. The investigation of individual factors (e.g., motivation, self-efficacy, attitudes) influencing the intention to use digital educational content is a major research interest in design and implementation of suitable content (Hsu, J.-Y., Chen, C.-C., & Ting, P.-F. (2018). Understanding MOOC continuance: An empirical examination of social support theory. Interactive Learning Environments, 26(8), 1100–1118), yet to date without differentiation by discipline. A questionnaire following the Theory of Planned Behavior (Fishbein, M., & Ajzen, I. (2010). Predicting and changing behavior: The reasoned action approach. Psychology Press. http://site.ebrary.com/lib/alltitles/docDetail.action?docID=10462474) was developed to analyze relationships between STEM students’ individual beliefs and their personal motivation to use digital educational content. In November 2021, a total of 662 STEM students from 8 universities in Germany participated in the study. Analyses showed differences within the group of STEM students: science students rated their digital skills lower and expected more difficulties compared to other STEM students, but did not differ in terms of their motivation. For science students, unlike other STEM students, motivation was predicted only by attitudes and digital skills. Moreover, the present results suggest that, first, the focus of the design should be on learning environment rather than on digital tools, and second, the potential of collaboration is largely unrecognized by students.
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