"这不是超级重要的一点":第二学期有机化学学生在比较取代反应时的推理思路

IF 2.6 2区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
Ina Zaimi, Field M. Watts, David Kranz, Nicole Graulich, Ginger V. Shultz
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引用次数: 0

摘要

解决有机化学反应需要利用多种概念和数据进行推理(即多元推理)。然而,有研究报告称,有机化学学生通常表现出单变量推理。据报道,案例比较(学生对两个或多个任务进行比较)有助于学生进行多元推理。通过案例比较任务,我们探索了学生的多元推理能力。我们的研究以资源框架为指导。一个概念资源会激活另一个概念资源,进而激活一组概念资源。这一系列相继激活的资源表现为推理过程。将这一框架与定性方法相结合,我们采访了 11 名有机化学第二学期的学生,让他们比较两种取代反应机理,并选择活化能较低的机理。我们分析了激活了哪些概念资源和推理思路,以及学生参与多元推理的变化情况。学生们激活了多种概念资源,而且还将其激活的资源扩展到了已发展和未发展的推理思路中。在构建解释时,大多数学生都进行了单变量推理。这些学生从多个被激活的资源中选择了一个已发展的推理思路,或者只从一个被激活的资源中构建了一个未发展的推理思路。很少有学生进行多元推理。这些学生从多个被激活的资源中提供了已发展和未发展的推理思路。我们的研究结果凸显了学生在进行单变量和多变量推理时的差异。因此,我们建议在案例比较活动中,除了激活和发展多种推理思路外,还要为学生参与多种推理思路提供支架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
“That's not a super important point”: second-semester organic chemistry students’ lines of reasoning when comparing substitution reactions
Solving organic chemistry reactions requires reasoning with multiple concepts and data (i.e., multivariate reasoning). However, studies have reported that organic chemistry students typically demonstrate univariate reasoning. Case comparisons, where students compare two or more tasks, have been reported to support students’ multivariate reasoning. Using a case-comparison task, we explored students’ multivariate reasoning. Our study was guided by the resources framework. One conceptual resource activates another conceptual resource and, successively, a set of conceptual resources. This successively activated set of resources is expressed in a line of reasoning. Pairing this framework with qualitative methods, we interviewed eleven second-semester organic chemistry students while they compared two substitution reaction mechanisms and chose the mechanism with the lower activation energy. We analysed what conceptual resources and lines of reasoning were activated and the variation to which students engaged in multivariate reasoning. Students activated multiple conceptual resources and, moreover, extended their activated resources into both developed and undeveloped lines of reasoning. When constructing their explanations, most students engaged in univariate reasoning. These students provided a developed line of reasoning selected from multiple activated resources, or they provided an undeveloped line of reasoning constructed from only one activated resource. Few students engaged in multivariate reasoning. These students provided both developed and undeveloped lines of reasoning from multiple activated resources. Our findings highlight the variation with which students engage in both univariate and multivariate reasoning. Therefore, we recommend that case-comparison activities scaffold engagement with multiple lines of reasoning in addition to activating and developing them.
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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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