Distances in the Universe: An Inquiry Lab Sequence Taught in West Africa and North America

CourseSource Pub Date : 2023-01-01 DOI:10.24918/cs.2023.3
L. Strubbe, Deborah Good, Jielai Zhang, Heidi White, Kelly Lepo, W. Code, S. Abotsi‐Masters
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Abstract

Astronomy evokes deep curiosity for many people, making it a beautiful topic for supporting students to learn scientific practices and develop as scientists. We present an inquiry-based lab sequence about distances in the Universe, which we have taught in a first-year astronomy course in Canada and in a summer program for upper-year students in West Africa. Students begin with two warm-up labs where they discover the methods of parallax and the inverse-square law for light to measure distances in their everyday lives. Then they engage in a mini research project in which they ask their own questions about astronomical images, then break down their big questions into smaller questions related to measuring astronomical distances. Students work together in teams to investigate their questions, and finally present their findings to their classmates. Students developing their own questions to investigate is a key scientific practice that is not included in many other inquiry lab curricula. We show evidence that students learned astronomical concepts, had positive feelings about the labs, appreciated the freedom to come up with their own approaches in the labs, and built their self-efficacy as scientists. Since facilitating inquiry is quite different from other kinds of teaching, we describe key features of our facilitation including how we teach new instructors. We describe our curriculum in both Canada and West Africa and offer suggestions for future implementations. We encourage other astronomy instructors to try an inquiry approach to help students develop as scientists while exploring topics they
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宇宙中的距离:在西非和北美讲授的探究性实验室序列
天文学唤起了许多人的好奇心,使其成为支持学生学习科学实践和发展科学家的美好话题。我们提出了一个关于宇宙距离的探究式实验序列,这是我们在加拿大的一年级天文学课程和西非高年级学生的暑期课程中教授的。学生们从两个热身实验室开始,在那里他们发现了视差法和光的平方反比定律来测量他们日常生活中的距离。然后,他们参与一个小型研究项目,在这个项目中,他们提出自己关于天文图像的问题,然后将他们的大问题分解成与测量天文距离相关的小问题。学生们小组合作,调查他们的问题,最后向同学们展示他们的发现。学生提出自己的问题进行调查是一项重要的科学实践,在许多其他探究性实验课程中是不包括的。我们展示的证据表明,学生们学习了天文概念,对实验室有积极的感觉,欣赏在实验室中提出自己的方法的自由,并建立了作为科学家的自我效能感。由于促进探究与其他类型的教学有很大不同,我们描述了我们的促进的关键特征,包括我们如何教授新教师。我们描述了我们在加拿大和西非的课程,并提出了未来实施的建议。我们鼓励其他天文学教师尝试探究的方法,帮助学生在探索他们感兴趣的主题的同时发展成为科学家
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