在基于技术的化学问题解决过程中,对表征能力的适应性支持

IF 3 1区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
M. Rau, Miranda Zahn, Edward Misback, Tiffany Herder, J. Burstyn
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引用次数: 4

摘要

背景:STEM学习的一个关键方面是使用视觉表征来解决问题。为了成功地使用视觉效果,学生需要理解他们如何展示概念,并流畅地感知其中的领域相关信息。在解决问题的活动中增加对意义建构和感知流畅性的支持,可以增强学生对内容知识的学习。然而,学生需要不同类型的表征能力支持,这取决于他们的先验知识。这表明,自适应地将学生分配到意义构建和感知流畅性支持可能比将所有学生分配到相同的这些支持序列更有效。方法:以44名本科化学专业学生为实验对象,对上述假设进行检验。学生们被随机分配到一个为期十周的解决问题的活动序列中,这些活动要么提供固定序列的意义构建支持和感知流畅性支持,要么根据学生解决问题的互动情况自适应地分配这些支持。结果发现:适应性表征能力有助于减少学生在解决问题过程中的困惑和错误,同时增加学生对内容知识的学习。贡献:我们的研究首次表明表征能力的适应性支持可以显著提高内容知识的学习。鉴于视觉效果的普遍性,我们的研究结果可以为一般的STEM教学提供信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Adaptive support for representational competencies during technology-based problem solving in chemistry
ABSTRACT Background: A key aspect of STEM learning is the use of visual representations for problem solving. To successfully use visuals, students need to make sense of how they show concepts and to fluently perceive domain-relevan information in them. Adding support for sense making and perceptual fluency to problem-solving activities enhances students’ learning of content knowledge. However, students need different types of representational-competency supports, depending on their prior knowledge. This suggests that adaptively assigning students to sense-makingand perceptual-fluency support might be more effective than assigning all students to the same sequence of these supports. Method: We tested this hypothesis in an experiment with 44 undergraduate students in a chemistry course. Students were randomly assigned to a ten-week sequence of problem-solving activities that either provided a fixed sequence of sense-making support and perceptual-fluency support or adaptively assigned these supports based on students’ problem-solving interactions. Findings: Results show that adaptive representational-competency supports reduced students’ confusion and mistakes during problem solving while increasing their learning of content knowledge. Contribution: Our study is the first to show that adaptive support for representational competencies can significantly enhance learning of content knowledge. Given the pervasiveness of visuals, our results may inform general STEM instruction.
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来源期刊
CiteScore
10.70
自引率
5.30%
发文量
17
期刊介绍: Journal of the Learning Sciences (JLS) is one of the two official journals of the International Society of the Learning Sciences ( www.isls.org). JLS provides a multidisciplinary forum for research on education and learning that informs theories of how people learn and the design of learning environments. It publishes research that elucidates processes of learning, and the ways in which technologies, instructional practices, and learning environments can be designed to support learning in different contexts. JLS articles draw on theoretical frameworks from such diverse fields as cognitive science, sociocultural theory, educational psychology, computer science, and anthropology. Submissions are not limited to any particular research method, but must be based on rigorous analyses that present new insights into how people learn and/or how learning can be supported and enhanced. Successful submissions should position their argument within extant literature in the learning sciences. They should reflect the core practices and foci that have defined the learning sciences as a field: privileging design in methodology and pedagogy; emphasizing interdisciplinarity and methodological innovation; grounding research in real-world contexts; answering questions about learning process and mechanism, alongside outcomes; pursuing technological and pedagogical innovation; and maintaining a strong connection between research and practice.
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