Explicit Instruction of Scientific Uncertainty in an Undergraduate Geoscience Field-Based Course

IF 2.1 3区教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH

Science & Education Pub Date : 2022-05-11 DOI:10.1007/s11191-022-00345-z

Kathryn M. Bateman, Cristina G. Wilson, Randolph T. Williams, Basil Tikoff, Thomas F. Shipley

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Abstract

Understanding and communicating uncertainty is a key skill needed in the practice of science. However, there has been little research on the instruction of uncertainty in undergraduate science education. Our team designed a module within an online geoscience field course which focused on explicit instruction around uncertainty and provided students with an uncertainty rating scale to record and communicate their uncertainty with a common language. Students then explored a complex, real-world geological problem about which expert scientists had previously made competing claims through geologic maps. Provided with data, expert uncertainty ratings, and the previous claims, students made new geologic maps of their own and presented arguments about their claims in written form. We analyzed these reports along with assessments of uncertainty. Most students explicitly requested geologists’ uncertainty judgments in a post-course assessment when asked why scientists might differ in their conclusions and/or utilized the rating scale unprompted in their written arguments. Through the examination of both pre- and post-course assessments of uncertainty and students’ course-based assessments, we argue that explicit instruction around uncertainty can be introduced during undergraduate coursework and could facilitate geoscience novices developing into practicing geoscientists.

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科学不确定性在本科地学实地课程中的显性教学

摘要理解和沟通不确定性是科学实践中所需要的一项关键技能。然而，对本科理科教育中不确定性教学的研究却很少。我们的团队在在线地球科学实地课程中设计了一个模块，该模块侧重于关于不确定性的明确指导，并为学生提供不确定性评分量表，以便用通用语言记录和交流他们的不确定性。然后，学生们探索了一个复杂的、现实世界的地质问题，专家科学家们此前曾通过地质图对这个问题提出过不同的主张。在提供了数据、专家的不确定性评级和以前的主张后，学生们绘制了自己的新地质图，并以书面形式提出了关于自己主张的论点。我们分析了这些报告，并对不确定性进行了评估。大多数学生在课后评估中明确要求地质学家对不确定性的判断，当被问及为什么科学家可能会在他们的结论中有不同的看法，或者在他们的书面论点中没有提示地使用评级量表。通过对课程前和课程后不确定性评估以及学生基于课程的评估的研究，我们认为可以在本科课程中引入关于不确定性的明确指导，从而促进地球科学新手发展为实践地球科学家。

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来源期刊

Science & Education Social Sciences-Education

CiteScore

5.90

自引率

0.00%

发文量

1117

审稿时长

6-12 weeks

期刊介绍： Science & Education publishes research informed by the history, philosophy and sociology of science and mathematics that seeks to promote better teaching, learning, and curricula in science and mathematics. More particularly Science & Education promotes: The utilization of historical, philosophical and sociological scholarship to clarify and deal with the many intellectual issues facing contemporary science and mathematics education. Collaboration between the communities of scientists, mathematicians, historians, philosophers, cognitive psychologists, sociologists, science and mathematics educators, and school and college teachers. An understanding of the philosophical, cultural, economic, religious, psychological and ethical dimensions of modern science and the interplay of these factors in the history of science. The inclusion of appropriate history and philosophy of science and mathematics courses in science and mathematics teacher-education programmes. The dissemination of accounts of lessons, units of work, and programmes in science and mathematics, at all levels, that have successfully utilized history and philosophy. Discussion of the philosophy and purposes of science and mathematics education, and their place in, and contribution to, the intellectual and ethical development of individuals and cultures.