元认知问题解决:从多维参与的角度探索学生的观点

IF 2.6 2区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
Kimberly Vo, Mahbub Sarkar, Paul J. White, Elizabeth Yuriev
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引用次数: 0

摘要

解决化学问题需要内容知识和掌握解决问题的过程。然而,学生有时缺乏化学问题解决所需的元认知过程。本研究调查了高一化学学生如何使用元认知问题解决支架 "金丝雀帮助"。数据是从一项活动中收集的,该活动涉及学生将他们解决问题的尝试与专家的解决方案进行反思比较。对这些比较反思(N = 373)进行了主题分析,从认知、情感和行为三个维度研究支架的参与情况。研究结果表明,支架的使用加上自我反思,使学生能够发现自己的解决方案中存在的缺陷,这些缺陷要么与具体问题有关,要么与解决问题的技能有关。学生们能够提出改进策略,例如向自己提出提示性问题,以及为评估答案寻找多种备选方案。最初缺乏结构化问题解决技能的学生发现,脚手架帮助他们放慢了元认知过程的速度,否则他们就会匆忙完成或只参与表面层次的元认知过程。学生抵制支架的原因是害怕犯错,或认为支架需要额外的时间和精力。在一个学期内,许多学生在成功地、有条理地解决问题方面取得了进步,但也有一些学生需要更多的练习来内化支架。我们的研究结果还表明,由于不断接触支架,并有机会将自己的作品与专家的解 决方案进行比较、自我评估和反思,学生对问题解决的反思变得更加复杂。对化学教育中反思性写作的进一步研究应关注此类评价的 "ipsative "性质,即与之前的表现相比,关注学生自身的进步、成长和改进,同时认识到课程嵌入式反思中可操作的权力关系。从教学实践的角度来看,了解学生的思想、情感和行为有助于教师区分学生的能力水平、思维方式和额外支持需求,从而将教学工作导向促进元认知和结构化问题解决。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metacognitive problem solving: exploration of students’ perspectives through the lens of multi-dimensional engagement
Solving chemical problems entails content knowledge and mastery of problem-solving processes. However, students sometimes lack metacognitive processes required for problem solving in chemistry. This study investigated how first-year chemistry students engaged with the metacognitive problem-solving scaffold Goldilocks Help. Data was collected from an activity, which involved students reflectively comparing their problem-solving attempts to an expert solution. These comparative reflections (N = 373) were thematically analysed to investigate scaffold engagement in three dimensions: cognitive, emotional, and behavioural. Findings showed that scaffold use, coupled with self-reflection, allowed students to identify flaws in their solutions that were either problem specific or related to their problem-solving skills. Students were able to propose improvement strategies, such as posing prompting questions to themselves and finding multiple alternatives for evaluating an answer. Students, who initially lacked structured problem-solving skills, found that scaffolding helped them to slow down metacognitive processes that would otherwise be rushed through or engaged with on a surface level. Students’ resistance to the scaffold was due to fear of making a mistake or viewing the scaffold as requiring extra time and effort. Within a semester, many students demonstrated an improvement in successful and structured problem solving but some required more practice to internalise the scaffold. Our findings also indicated that students’ reflections on problem solving became more sophisticated as a result of continued exposure to the scaffold and iterative opportunities to compare their work to expert solutions, to self-assess, and to reflect. Further research on reflective writing in chemistry education should focus on the ipsative nature of such assessments, i.e. processes focusing on students’ own progress, growth, and improvement, compared to their previous performance, while recognising the power relations operationalised in course-embedded reflections. From the teaching practice perspective, having an awareness of students’ thoughts, emotions, and actions can help instructors differentiate between levels of student capabilities, mindsets, and needs for extra support, allowing teaching efforts to be directed at promoting metacognitive and structured problem solving.
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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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