Investigation of science process skills and computational thinking dispositions during the implementation of collaborative modeling-based learning in high school physics class

Q2 Social Sciences
Herwinarso, E. Pratidhina, Pramono Adam, H. Kuswanto, Anggi Datiatur Rahmat
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引用次数: 0

Abstract

Computational thinking (CT) skills are essential with the rapid advancement of technology. Developing CT attitudes in students is also required for improving CT skills.   On the other hand, science process skills are also emphasized in high school physics classes. This study aims to design and implement collaborative modeling-based learning for high school physics classes that stimulates computational thinking (CT) and science process skills. The learning activities use a collaborative approach and adapt the modeling process that scientists usually use. A pilot study in a high school physics course was conducted to investigate the effectiveness of collaborative modeling-based learning. The research instruments used in this study include a test for assessing theoretical understanding, an observational rubric for assessing science process skills and a self-report checklist to assess CT dispositions. A pre-and post-test design is employed in the pilot study. Eighty-nine students participated in this study. Students who participated in collaborative modeling-based learning gained a theoretical understanding. Moreover, they have excellent science process skills. According to the self-report checklist, students also demonstrated positive CT attitudes and indicated that they planned to apply CT aspects to their learning.   It indicates that the modeling process has engaged students to think computationally and develop their process skills.
在高中物理课上实施基于协作建模的学习过程中对科学过程技能和计算思维处置的调查
随着科技的快速发展,计算思维(CT)技能是必不可少的。培养学生的CT态度也是提高CT技能的必要条件。另一方面,在高中物理课上也强调科学过程技能。本研究旨在设计并实施基于协作模型的高中物理课程学习,以激发计算思维(CT)和科学处理技能。学习活动采用协作的方法,并适应科学家通常使用的建模过程。本研究在一所高中物理课程中进行了一项试点研究,以探讨基于协作模型的学习的有效性。本研究中使用的研究工具包括评估理论理解的测试,评估科学过程技能的观察量表和评估CT处置的自我报告清单。在试点研究中采用了前后试验设计。89名学生参加了这项研究。参与基于协作建模的学习的学生获得了理论理解。此外,他们具有出色的科学处理技能。根据自我报告清单,学生们也表现出积极的CT态度,并表示他们计划将CT方面应用到他们的学习中。这表明建模过程已经吸引了学生的计算思维和发展他们的过程技能。
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
CiteScore
3.30
自引率
0.00%
发文量
32
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