Investigating best practices in utilizing a web-based assessment tool in an introductory geology course: “CLASS,” course setting and course structure

Q1 Social Sciences Journal of Geoscience Education Pub Date : 2022-02-07 DOI:10.1080/10899995.2022.2028519
Jason P. Jones, D. McConnell
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Abstract

Abstract In the past couple of decades, the geoscience education community has made great strides toward investigating how to provide effective student learning experiences in the college setting. While experiences such as student-centered teaching strategies and course design elements are useful for the instructor, they may not make important elements of the learning process itself explicit to the student. As a result, students may navigate a course without timely and necessary feedback related to their learning progress. To help remedy this issue, we designed and developed the Confidence-based Learning Accuracy Support System (CLASS) to provide students explicit feedback related to their mastery of geology content and the accuracy of their perceptions of their abilities. CLASS leverages robust evidence from education psychology regarding student metacognition and self-regulated learning (SRL). We investigated the relationship between students’ judgments of their performance and their actual performance during summative exams in an introductory physical geology course. This study collected student confidence data for every question of students’ midterm exams and compared this confidence to performance via multiple empirically-derived measures of the disparity between students’ perceptions of their performance and their actual performance. In addition to exam-based data, we developed and provided CLASS quizzes (with varying requirements) to provide students with feedback regarding their learning and accuracy during the target courses. Results indicated that students utilizing CLASS performed better than their predecessors for the first two exams and were generally more accurate in their approximations. Overall, results provide support for CLASS’s potential to serve as a tool for increasing student metacognitive awareness, self-regulation and performance in undergraduate geoscience courses.
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调查在地质学入门课程中使用基于网络的评估工具的最佳实践:“课堂”、课程设置和课程结构
摘要在过去的几十年里,地球科学教育界在研究如何在大学环境中为学生提供有效的学习体验方面取得了长足的进步。虽然以学生为中心的教学策略和课程设计元素等经验对教师有用,但它们可能不会使学习过程本身的重要元素向学生明确。因此,学生可能在没有及时和必要的学习进度反馈的情况下浏览课程。为了帮助解决这个问题,我们设计并开发了基于信心的学习准确性支持系统(CLASS),为学生提供与他们对地质内容的掌握以及他们对能力感知的准确性相关的明确反馈。CLASS利用了来自教育心理学的关于学生元认知和自我调节学习(SRL)的有力证据。我们调查了学生在物理地质学导论课程的总结性考试中对自己表现的判断与实际表现之间的关系。这项研究收集了学生期中考试每一道题的学生信心数据,并通过对学生对自己表现的感知与实际表现之间差异的多种实证测量,将这种信心与表现进行了比较。除了基于考试的数据外,我们还开发并提供了课堂测验(有不同的要求),为学生提供关于他们在目标课程中的学习和准确性的反馈。结果表明,在前两次考试中,使用CLASS的学生比他们的前任表现更好,而且他们的近似值通常更准确。总体而言,研究结果支持了CLASS作为提高学生元认知意识、自我调节和在本科地球科学课程中表现的工具的潜力。
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来源期刊
Journal of Geoscience Education
Journal of Geoscience Education Social Sciences-Education
CiteScore
3.20
自引率
0.00%
发文量
32
期刊介绍: The Journal of Geoscience Education (JGE) is a peer-reviewed publication for geoscience education research, and serves as an international forum for research concerning the pedagogy, assessment, and philosophy of teaching and learning about the geosciences and related domains. JGE is a publication of the National Association of Geoscience Teachers, a non-profit, member-driven organization that supports a diverse, inclusive, and thriving community of educators and education researchers to improve teaching and learning about the Earth.
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