Student perceptions of partial charges and nucleophilicity/electrophilicity when provided with either a bond-line, ball-and-stick, or electrostatic potential map for molecular representation

IF 2.6 2区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
Ayesha Farheen, Nia Martin and Scott E. Lewis
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引用次数: 0

Abstract

Education in organic chemistry is highly reliant on molecular representations. Students abstract information from representations to make sense of submicroscopic interactions. This study investigates relationships between differing representations: bond-line structures, ball-and-stick, or electrostatic potential maps (EPMs), and predicting partial charges, nucleophiles, and electrophiles. The study makes use of students’ answers in hot-spot question format, where they select partially charged atoms on the image of a molecule and explanations. Analysis showed no significant difference among students when predicting a partially positive atom with each representation; however, more students with EPMs were able to correctly predict the partially negative atom. No difference was observed across representations in students predicting electrophilic character; while representations did influence students identifying nucleophilic character. The affordance of EPMs was that they cued more students to cite relative electronegativity indicating that such students were able to recognize the cause for electron rich/poor areas. This recognition is central to rationalizing mechanisms in organic chemistry. This study offers implications on incorporating EPMs during instruction and provides evidence-based support in how EPMs could be useful in promoting learning on topics that relate to an uneven charge distribution.

学生对部分电荷和亲核性/亲电性的感知,提供键线图、球棍图或静电位图来表示分子
有机化学教育高度依赖分子表象。学生从表象中抽象出信息,从而理解亚显微相互作用。本研究调查了不同表征之间的关系:键线结构、球棍结构或静电位图(EPM),以及部分电荷、亲核物和亲电物的预测。研究利用了学生对热点问题的回答,即在分子图像上选择带部分电荷的原子并进行解释。分析表明,学生在用每种表示方法预测部分带正电的原子时没有明显差异;然而,更多使用 EPM 的学生能够正确预测部分带负电的原子。在学生预测亲电性方面,各种表征没有发现差异;而在学生识别亲核性方面,表征确实会产生影响。EPM 的优势在于它们能提示更多的学生举出相对电负性,这表明这些学生能够识别富电子/贫电子区域的原因。这种认识对于有机化学中的机理合理化至关重要。这项研究为在教学中纳入 EPM 提供了启示,并为 EPM 如何有助于促进与电荷分布不均有关的主题的学习提供了基于证据的支持。
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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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