Improving Early Optics Instruction Using a Phenomenological Approach: A Field Study

3区 物理与天体物理 Q1 Materials Science Progress in Optics Pub Date : 2022-11-09 DOI:10.3390/opt3040035
Kai Fliegauf, Janika Sebald, J. Veith, Henrike Spiecker, P. Bitzenbauer
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引用次数: 3

Abstract

Previous research has shown that phenomenological approaches in early optics education might be superior to traditional model-based instruction based on the light ray realm with regards to fostering students’ conceptual understanding of basic optics topics. However, it remains open to date which learning difficulties students encounter when being introduced to optics following a phenomenological approach—in particular, in comparison to the learning difficulties that are widespread among students introduced to optics via traditional model-based instruction. With this article, we contribute to closing this gap: We report the results of a quasi-experimental field study with N=189 secondary school students. We used ten items adapted from the literature in a pre-posttest design for an in-depth exploration of the conceptions of introductory optics topics acquired by N=89 students introduced to optics following a phenomenological teaching-learning sequence and compare these students’ conceptions to the ones acquired by N=100 peers who participated in traditional model-based instruction covering the same content topics. The results of this study substantiate earlier findings according to which phenomenological teaching might be a fruitful endeavour for early optics education, in particular, when it comes to teaching and learning about image formation by converging lenses.
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运用现象学方法改进早期光学教学:一项实地研究
先前的研究表明,在早期光学教育中,现象学方法在培养学生对基本光学主题的概念理解方面可能优于传统的基于光线领域的基于模型的教学。然而,迄今为止,学生在按照现象学方法介绍光学时遇到的学习困难仍然是开放的,特别是与通过传统的基于模型的教学介绍光学的学生中普遍存在的学习困难相比。在这篇文章中,我们为缩小这一差距做出了贡献:我们报告了对N=189名中学生进行的准实验实地研究的结果。本研究采用前-后测试设计,采用文献改编的10个题目,对89名按照现象学教学顺序学习光学的学生所获得的光学导论主题概念进行了深入探讨,并将这些学生的概念与100名参与传统基于模型的教学的学生所获得的概念进行了比较。这项研究的结果证实了早期的发现,根据现象学教学可能是早期光学教育的一个富有成效的努力,特别是当涉及到通过会聚透镜形成图像的教学和学习时。
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来源期刊
Progress in Optics
Progress in Optics 物理-光学
CiteScore
4.50
自引率
0.00%
发文量
8
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