学习物质的微粒性质概念时，计算机模拟对学生转换化学表象能力的影响

IF 2.5 3区教育学 Q2 CHEMISTRY, MULTIDISCIPLINARY

Journal of Chemical Education Pub Date : 2024-09-03 DOI:10.1021/acs.jchemed.4c00964

Bokai Hu, Liying Zhu, Hualin Bi

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引用次数: 0

摘要

物质的微粒性质（PNM）概念对许多学生来说是一个巨大的挑战，主要是因为它既抽象又难以直观。计算机模拟（CS）可以通过粒子模型帮助学生直观地理解微观粒子。尽管计算机模拟在培养学生理解微观粒子的亚显微表征方面得到了广泛应用，但对于像 PNM 这样的主题，通常还需要额外的表征，如宏观表征和符号表征，这就增加了复杂性。要促进学生对 PNM 的有意义理解，就需要精心搭建脚手架，帮助他们建立不同化学表征之间的相互联系和转换。本研究介绍了使用 CS 介绍 PNM 概念的活动的开发和测试。研究结果表明，在学习 PNM 概念时，CS 能显著提高初中学生在各种化学表象之间进行转换的能力。具体来说，他们在宏观表象和亚显微表象之间的转换能力得到了明显提高，而对符号表象和亚显微表象的理解能力则得到了适度提高。我们假设，使用 CSs 可以提供一个更全面的粒子模型，该模型包含多个维度，并为学生提供了一个建模过程。本研究提出了在教学中纳入 CS 的意义，并为 CS 如何有助于促进与 PNM 相关主题的化学表征提供了基于证据的支持。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Effect of Computer Simulations on Student Ability to Translate Chemical Representations When Learning the Particulate Nature of Matter Concept

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Effect of Computer Simulations on Student Ability to Translate Chemical Representations When Learning the Particulate Nature of Matter Concept

The particulate nature of matter (PNM) concept poses a significant challenge for numerous students, primarily because it is abstract and difficult to visualize. Computer simulations (CSs) can aid students in visualizing microscopic particles using particle models. Despite the wide use of CSs in the development of student understanding of the submicroscopic representation of particles, for topics such as PNM, additional representations such as macroscopic and symbolic representations are typically present, which add additional complexity. Facilitating students’ meaningful understanding of the PNM requires careful scaffolding to help them establish interconnections and transformations among different chemical representations. This study describes the development and testing of activities that use CSs to introduce PNM concepts. The findings revealed that CSs significantly enhanced middle school students’ proficiency in translating between various kinds of chemical representations when learning the PNM concept. Specifically, their competence in translating between macroscopic and submicroscopic representations was significantly improved, while their understanding of symbolic and submicroscopic representations was moderately improved. We hypothesize that engaging with CSs provides a more comprehensive particle model that incorporates diverse dimensions and offers students a modeling process. This study proposes implications for incorporating CSs during instruction and provides evidence-based support for how CSs could be useful in promoting chemical representations of topics related to the PNM.

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来源期刊

Journal of Chemical Education 化学-化学综合

CiteScore

5.60

自引率

50.00%

发文量

465

审稿时长

6.5 months

期刊介绍： The Journal of Chemical Education is the official journal of the Division of Chemical Education of the American Chemical Society, co-published with the American Chemical Society Publications Division. Launched in 1924, the Journal of Chemical Education is the world’s premier chemical education journal. The Journal publishes peer-reviewed articles and related information as a resource to those in the field of chemical education and to those institutions that serve them. JCE typically addresses chemical content, activities, laboratory experiments, instructional methods, and pedagogies. The Journal serves as a means of communication among people across the world who are interested in the teaching and learning of chemistry. This includes instructors of chemistry from middle school through graduate school, professional staff who support these teaching activities, as well as some scientists in commerce, industry, and government.