An Inquiry-based approach to the Franck-Hertz experiment

Il Nuovo cimento della Societa italiana di fisica. C Pub Date : 2015-12-01 DOI:10.1393/NCC/I2015-15109-Y

N. Pizzolato, D. P. Adorno, C. Fazio

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引用次数: 13

Abstract

The practice of scientists and engineers is today exerted within interdisciplinary contexts, placed at the intersections of different research fields, including nanoscale science. The development of the required competences is based on an effective science and engineering instruction, which should be able to drive the students towards a deeper understanding of quantum mechanics fundamental concepts and, at the same time, strengthen their reasoning skills and transversal abilities. In this study we report the results of an inquiry-driven learning path experienced by a sample of 12 electronic engineering undergraduates engaged to perform the Franck-Hertz experiment. Before being involved in this experimental activity, the students received a traditional lecture-based instruction on the fundamental concepts of quantum mechanics, but their answers to an open-ended questionnaire, administered at the beginning of the inquiry activity, demonstrated that the acquired knowledge was characterized by a strictly theoretical vision of quantum science, basically in terms of an artificial mathematical framework having very poor connections with the real world. The Franck Hertz experiment was introduced to the students by starting from the problem of finding an experimental confirmation of the Bohr’s postulates asserting that atoms can absorb energy only in quantum portions. The whole activity has been videotaped and this allowed us to deeply analyse the student perception’s change about the main concepts of quantum mechanics. We have found that the active participation to this learning experience favored the building of cognitive links among student theoretical perceptions of quantum mechanics and their vision of quantum phenomena, within an everyday context of knowledge. Furthermore, our findings confirm the benefits of integrating traditional lecture-based instruction on quantum mechanics with learning experiences driven by inquiry-based teaching strategies.

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弗兰克-赫兹实验的探究式方法

今天，科学家和工程师的实践是在跨学科的背景下进行的，处于不同研究领域的交叉点，包括纳米尺度科学。所需能力的发展是基于有效的科学和工程指导，这应该能够推动学生对量子力学的基本概念有更深的理解，同时，加强他们的推理能力和横向能力。在这项研究中，我们报告了12名从事弗兰克-赫兹实验的电子工程本科生的探究式学习路径的结果。在参与这项实验活动之前，学生们接受了传统的以讲座为基础的量子力学基本概念的指导，但他们在探究活动开始时对一份开放式问卷的回答表明，他们获得的知识的特点是严格的量子科学理论视野，基本上是在人工数学框架方面，与现实世界的联系非常差。弗兰克·赫兹的实验是从寻找实验证实玻尔假设的问题开始介绍给学生的，玻尔假设断言原子只能在量子部分吸收能量。整个活动都有录像，这让我们可以深入分析学生对量子力学主要概念的认知变化。我们发现，在日常知识背景下，积极参与这种学习体验有利于在学生对量子力学的理论认知和他们对量子现象的看法之间建立认知联系。此外，我们的研究结果证实了将传统的基于讲座的量子力学教学与基于探究的教学策略驱动的学习体验相结合的好处。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Il Nuovo cimento della Societa italiana di fisica. C

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