What makes representations good representations for science education? A teacher-oriented summary of significant findings and a practical guideline for the transfer into teaching

IF 2.2 Q2 EDUCATION, SCIENTIFIC DISCIPLINES Chemistry Teacher International : best practices in chemistry education Pub Date : 2023-07-17 DOI:10.1515/cti-2022-0019
Büşra Tonyali, Mathias Ropohl, Julia Schwanewedel
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Abstract

Abstract Existing instructional materials for chemistry offer a huge range of different external representations that can be used by chemistry teachers to support students’ understanding of chemical concepts like the concept structure of matter. In science, different kinds of representations are usually combined forming multiple external representations. Examples are combinations of texts, pictures, figures, diagrams, graphs, tables, schemes etc. However, these multiple external representations often have problematic features and/or do not meet students’ subject-related learning needs. For example, many external representations do not take different representational levels into account and/or mix information on the macroscopic level with those from the submicroscopic level. Such representations have the potential to favor students’ misconceptions who often struggle with separating different representational levels. Therefore, it is important to highlight crucial characteristics of external representations that potentially facilitate students’ learning of chemical concepts at lower secondary schools (age group 10–14). When chemistry teachers consider and reflect crucial characteristics of representations and adapt existing external representations or develop new ones, these new representations can become powerful cognitive tools helping to make instruction in chemistry more effective and coherent. This article answers the question What makes representations good representations in science education? by describing features of effective learning with decisive characteristics of multiple external representations and highlighting these characteristics by means of concrete examples from chemistry learning. Finally, an online tool will be outlined that can help teachers to improve multiple external representations for use in chemistry classes.
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是什么让表征成为科学教育的良好表征?一份以教师为导向的重要发现总结,以及将其转化为教学的实用指南
现有的化学教学材料提供了大量不同的外部表征,化学教师可以利用这些表征来支持学生对物质概念结构等化学概念的理解。在科学中,不同种类的表征通常组合在一起,形成多个外部表征。例如文本、图片、数字、图表、图形、表格、方案等的组合。然而,这些多重外部表征往往有问题的特征和/或不满足学生与学科相关的学习需求。例如,许多外部表征没有考虑到不同的表征层次和/或将宏观层面的信息与亚微观层面的信息混合在一起。这样的表征有可能有利于学生的误解,他们往往难以区分不同的表征水平。因此,重要的是要强调外部表征的关键特征,这些特征可能有助于学生在初中(10-14岁)学习化学概念。当化学教师考虑和反映表征的关键特征,并适应现有的外部表征或开发新的表征时,这些新的表征可以成为强大的认知工具,有助于使化学教学更有效和连贯。本文回答了在科学教育中是什么使表征成为好的表征?通过用多重外在表征的决定性特征来描述有效学习的特征,并通过化学学习的具体实例来突出这些特征。最后,将概述一个在线工具,它可以帮助教师改进化学课堂上使用的多种外部表示。
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