Reconstructing perspectives: investigating how molecular geometry cards (MGCards) and molecular model building (MMB) disrupt students' alternative notions of molecular structure – a qualitative study

IF 2.6 2区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH Chemistry Education Research and Practice Pub Date : 2024-05-30 DOI:10.1039/D3RP00038A
Erlina, Dylan P. Williams, Chris Cane, Hairida, Maria Ulfah and Azwa F. Wafiq
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Abstract

The range of abstract concepts encountered when learning chemistry and the inability of students to make connections between the macroscopic, sub-microscopic, and symbolic representations, used in chemistry teaching, are believed to be the main reasons for students’ difficulty when learning chemistry. Prediction and determination of molecular geometry using the theory of valence shell electron pair repulsion (VSEPR) is a sample of the abstract concept that is hard to understand by students who learn chemistry. Students may comprehend these ideas better if the learning process is supplemented with cutting-edge, interactive learning aids. To address the conceptual difficulties that students encounter when learning how to predict the shapes of molecules, a card game (MGCards) has been developed which is supported by simple molecular model building (MMB). The card game allows students to work through the steps required to predict the shape of a molecule in an engaging format. The student learning process is supported by feedback at all stages (if students make a mistake, they receive hints that will help them in the next step of the game). Action research with qualitative methods has been used to design, develop, and evaluate the MGCards. The MGCards and MMB were piloted at the University of Leicester with year one Natural Sciences students and modified based on the feedback received. Both MGCards and MMB were then used as part of the first-year chemistry education programme at Tanjungpura University in Indonesia. The findings of students’ answer analysis (pre- and post-test) in both cycles showed that students had a better understanding after learning with MGCards and MMB. The positive feedback for MGCards and MMB confirmed that these resources were effective in delivering an engaging learning experience. The results suggest that MGCards and MMB play a significant role in enhancing students’ understanding while also keeping them engaged.

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重构视角:调查分子几何卡(MGCards)和分子模型构建(MMB)如何扰乱学生对分子结构的另类观念--定性研究
學生在學習化學時所遇到的各種抽象概念,以及在化學教學中所使用的宏 觀、次微觀和符號表象之間無法建立聯繫,被認為是學生學習化學困難的主 要原因。利用價層電子對排斥理論(VSEPR)預測和斷定分子幾何是學生學習化 學時難以理解的抽象概念。如果在学习过程中辅以先进的互动学习辅助工具,学生可能会更好地理解这些概念。針對學生在學習如何預測分子形狀時所遇到的概念上的困難,我們研發了一 款卡牌遊戲(MGCards),並輔以簡單的分子模型建立(MMB)。该卡牌游戏以引人入胜的形式让学生完成预测分子形状所需的步骤。学生的学习过程在各个阶段都有反馈支持(如果学生犯了错误,他们会收到提示,这将有助于他们进行下一步的游戏)。在设计、开发和评估 MGCards 的过程中,采用了定性方法的行动研究。莱斯特大学在自然科学一年级学生中试用了 MGCards 和 MMB,并根据收到的反馈意见进行了修改。然后,印尼丹戎普拉大学将 MGCards 和 MMB 用作一年级化学教育课程的一部分。两个周期的学生答题分析(前测和后测)结果显示,学生在使用 MGCards 和 MMB 学习后,对知识有了更好的理解。对 MGCards 和 MMB 的积极反馈证实了这些资源能有效地提供引人入胜的学习体验。结果表明,MGCards 和 MMB 在增强学生理解力和保持学生参与方面发挥了重要作用。
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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.
期刊最新文献
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