Using a research-based assessment instrument to explore undergraduate students’ proficiencies around measurement uncertainty in physics lab contexts

IF 2.6 2区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
Gayle Geschwind, Michael Vignal, Marcos D. Caballero, H. J. Lewandowski
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引用次数: 0

Abstract

Concepts and practices surrounding measurement uncertainty are vital knowledge for physicists and are often emphasized in undergraduate physics laboratory courses. We have previously developed a research-based assessment instrument—the Survey of Physics Reasoning on Uncertainty Concepts in Experiments (SPRUCE)—to examine student proficiency with measurement uncertainty along a variety of axes, including sources of uncertainty, handling of uncertainty, and distributions and repeated measurements. We present here initial results from the assessment representing over 1500 students from 20 institutions. We analyze students’ performance pre- and postinstruction in lab courses and examine how instruction impacts students with different majors and gender. We find that students typically excel in certain areas, such as reporting the mean of a distribution as their result, while they struggle in other areas, such as comparing measurements with uncertainty and correctly propagating errors using formulas. Additionally, we find that the importance that an instructor places in certain areas of measurement uncertainty is uncorrelated with student performance in those areas.

Abstract Image

使用基于研究的评估工具,探讨本科生在物理实验情境中对测量不确定性的掌握情况
有关测量不确定性的概念和实践是物理学家的重要知识,也是本科生物理实验课程中经常强调的内容。我们之前开发了一个基于研究的评估工具--"实验中不确定性概念的物理推理调查(SPRUCE)"--从不确定性的来源、不确定性的处理、分布和重复测量等多个方面考察学生对测量不确定性的掌握程度。我们在此介绍来自 20 所院校 1500 多名学生的初步评估结果。我们分析了学生在实验课程教学前后的表现,并研究了教学对不同专业和性别学生的影响。我们发现,学生通常在某些方面表现出色,例如将分布的平均值作为结果报告,而在其他方面却很吃力,例如比较测量结果的不确定性和使用公式正确传播误差。此外,我们还发现,教师对某些测量不确定性领域的重视程度与学生在这些领域的表现并不相关。
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来源期刊
Physical Review Physics Education Research
Physical Review Physics Education Research Social Sciences-Education
CiteScore
5.70
自引率
41.90%
发文量
84
审稿时长
32 weeks
期刊介绍: PRPER covers all educational levels, from elementary through graduate education. All topics in experimental and theoretical physics education research are accepted, including, but not limited to: Educational policy Instructional strategies, and materials development Research methodology Epistemology, attitudes, and beliefs Learning environment Scientific reasoning and problem solving Diversity and inclusion Learning theory Student participation Faculty and teacher professional development
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