在元认知支架的支持下发展解决问题的能力:学生书面作业的启示

IF 2.6 2区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH Chemistry Education Research and Practice Pub Date : 2024-07-09 DOI:10.1039/D3RP00284E
Kimberly Vo, Mahbub Sarkar, Paul J. White and Elizabeth Yuriev
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引用次数: 0

摘要

儘管解決問題是化學的核心技能,但學生在解決化學問題時往往會遇到困 難。这种困难可能来自学生试图通过记忆算法来解决问题。金發姑娘的幫助》是一個解決問題的鷹架,可協助學生有系統地解決問 題,包括計劃和評估等元素。在这项研究中,我们调查了高一化学学生在使用 "金发姑娘帮助 "教学时是如何解决问题的,以及他们解决问题的成功率和方法在一个学期中是否发生了变化。研究数据包括学生的书面解题作业,采用频率分析法进行分析,并根据解题成功率和所展示的解题要素的程度进行分组。在整个学期中,学生越来越多地展示了有条理的问题解决方法。然而,他们在充分展示解题过程中的理解和评价概念等方面遇到了困难,这需要批判性思维和对化学原理的牢固掌握。总体而言,研究表明,随着时间的推移,越来越多的学生在成功和有条理地解决问题方 面取得了进步,同时也有越来越多的学生表现出探索性的方法。这些研究结果表明,有必要在广泛的教学实践中纳入元认知问题解决支架、专家解决方案、反思性作业和基于评分标准的反馈。还需要进一步开展研究,扩大元认知支架的有效性探索,特别是通过思考-朗读访谈,这将有助于确定解决问题元素的有效和无效使用。
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Development of problem-solving skills supported by metacognitive scaffolding: insights from students’ written work†

Despite problem solving being a core skill in chemistry, students often struggle to solve chemistry problems. This difficulty may arise from students trying to solve problems through memorising algorithms. Goldilocks Help serves as a problem-solving scaffold that supports students through structured problem solving and its elements, such as planning and evaluation. In this study, we investigated how first-year chemistry students solved problems, when taught with Goldilocks Help, and whether their problem-solving success and approaches changed over the course of one semester. The data comprised of student written problem-solving work, and was analysed using frequency analysis and grouped based on the problem-solving success and the extent of the demonstrated problem-solving elements. Throughout the course of semester, students exhibited increasingly consistent demonstration of structured problem solving. Nonetheless, they encountered difficulties in fully demonstrating such aspects of problem solving as understanding and evaluating concepts, which demand critical thinking and a firm grasp of chemistry principles. Overall, the study indicated progress in successful and structured problem solving, with a growing proportion of students demonstrating an exploratory approach as time progressed. These findings imply the need for incorporation of metacognitive problem-solving scaffolding, exposure to expert solutions, reflective assignments, and rubric-based feedback into wide teaching practice. Further research is required to extend the exploration of the effectiveness of metacognitive scaffolding, in particular via think-aloud interviews, which should help identify productive and unproductive uses of the problem-solving elements.

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来源期刊
CiteScore
4.80
自引率
26.70%
发文量
64
审稿时长
6-12 weeks
期刊介绍: The journal for teachers, researchers and other practitioners in chemistry education.
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