Asking the right questions: Developing diagnostic tests in undergraduate physics

New directions in the teaching of physical sciences Pub Date : 2016-02-23 DOI:10.29311/NDTPS.V0I5.448

Rachel M Archer, S. Bates

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引用次数: 6

Abstract

Being able to discover students‟ conceptions and more importantly alternate - and misconceptions about a topic is vital in order to be able to assess and thus be able to improve student learning. It is well known that this can be achieved via the use of well-designed diagnostic tests, a widely used example of which is the Force Concept Inventory. Creating the right questions in order to form a reliable diagnostic test can be a lengthy and complicated process. This article reports work on a Development Project funded in 2008 to develop such a test for introductory Quantum Mechanics courses in both physics and chemistry. We present details of our methodology, which involves augmenting a „standard‟ multiple -choice question set with free-response boxes to determine the reasons for a student choosing a particular answer, and a self-assessment of their level of confidence in their choice. The responses from piloting this initial test in different institutions are used to inform the subsequent refinement of the test, as well as assessing the reliability and validity of the questions. We highlight examples of misconceptions that have been found during the development of the diagnostic tests.

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提出正确的问题:开发本科物理诊断测试

能够发现学生的概念，更重要的是，对一个主题的替代和误解是至关重要的，以便能够评估，从而能够提高学生的学习。众所周知，这可以通过使用设计良好的诊断测试来实现，其中一个广泛使用的例子是部队概念清单。为了形成可靠的诊断测试，创建正确的问题可能是一个漫长而复杂的过程。本文报告了2008年资助的一个开发项目的工作，该项目旨在为物理和化学的量子力学入门课程开发这样一种测试。我们详细介绍了我们的方法，其中包括增加一个“标准”选择题集和自由回答框，以确定学生选择特定答案的原因，以及对他们选择的自信程度的自我评估。在不同机构中进行的初步测试的反馈将用于为测试的后续改进提供信息，并评估问题的可靠性和有效性。我们强调在诊断测试开发过程中发现的误解的例子。

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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New directions in the teaching of physical sciences

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