生物医学教育中学生对创造性编码的反应

IF 1.2 4区 教育学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Biochemistry and Molecular Biology Education Pub Date : 2022-11-10 DOI:10.1002/bmb.21692
Phillip Gough, Oliver Bown, Craig R. Campbell, Philip Poronnik, Pauline M. Ross
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引用次数: 1

摘要

生物医学专业的学生需要学习编程。毕业生面对的未来是,如果他们会编程,他们将为研究、更高的学位和就业做好更好的准备。在生物医学课程中嵌入编码是有挑战的。首先,生物医学学生在学习定量和计算思维技能时经常感到焦虑,其次,生物医学教师往往缺乏教授编码所需的专业知识。在这项研究中,我们描述了一种创造性的编码方法来构建学生使用Processing和Arduino包的编码技能。生物医学专业的学生由来自医学与健康、科学与建筑、设计与规划的跨学科教师团队授课。我们描述了学生对这种方法的定量和定性反应。聚类分析揭示了学生反应的多样性,大多数学生支持课程中的创造性编码,一个较小但有发言权的聚类,他们不支持创造性编码,因为练习没有足够的挑战性或太有挑战性,并且认为编程不应该在生物医学科学课程中。我们描述了两个创造性的编码平台,Processing和Arduino,如何嵌入并用于可视化人类生理数据,并为学生提供响应,包括那些少数学生,这项研究发现,在生物医学本科学位最后一年的顶点课程中,学生的反应各不相同,学生的未来道路要么是研究更高的学位,要么是未来将越来越多地以数据为导向的劳动力。
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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Student responses to creative coding in biomedical science education

Biomedical science students need to learn to code. Graduates face a future where they will be better prepared for research higher degrees and the workforce if they can code. Embedding coding in a biomedical curriculum comes with challenges. First, biomedical science students often experience anxiety learning quantitative and computational thinking skills and second biomedical faculty often lack expertise required to teach coding. In this study, we describe a creative coding approach to building coding skills in students using the packages of Processing and Arduino. Biomedical science students were taught by an interdisciplinary faculty team from Medicine and Health, Science and Architecture, Design and Planning. We describe quantitative and qualitative responses of students to this approach. Cluster analysis revealed a diversity of student responses, with a large majority of students who supported creative coding in the curriculum, a smaller but vocal cluster, who did not support creative coding because either the exercises were not sufficiently challenging or were too challenging and believed coding should not be in a Biomedical Science curriculum. We describe how two creative coding platforms, Processing and Arduino, embedded and used to visualize human physiological data, and provide responses to students, including those minority of students, who are opposed to coding in the curriculum This study found a variety of students responses in a final year capstone course of an undergraduate Biomedical Science degree where future pathways for students are either in research higher degrees or to the workforce with a future which will be increasingly data driven.

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来源期刊
Biochemistry and Molecular Biology Education
Biochemistry and Molecular Biology Education 生物-生化与分子生物学
CiteScore
2.60
自引率
14.30%
发文量
99
审稿时长
6-12 weeks
期刊介绍: The aim of BAMBED is to enhance teacher preparation and student learning in Biochemistry, Molecular Biology, and related sciences such as Biophysics and Cell Biology, by promoting the world-wide dissemination of educational materials. BAMBED seeks and communicates articles on many topics, including: Innovative techniques in teaching and learning. New pedagogical approaches. Research in biochemistry and molecular biology education. Reviews on emerging areas of Biochemistry and Molecular Biology to provide background for the preparation of lectures, seminars, student presentations, dissertations, etc. Historical Reviews describing "Paths to Discovery". Novel and proven laboratory experiments that have both skill-building and discovery-based characteristics. Reviews of relevant textbooks, software, and websites. Descriptions of software for educational use. Descriptions of multimedia materials such as tutorials on various aspects of biochemistry and molecular biology.
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Issue Information Cinemeducation improves early clinical exposure to inborn errors of metabolism. The development of supplemental multimedia learning modules and their impact on student learning in food biotechnology courses. Encourage self-learning and collaborative learning through gamification during COVID-19 pandemic: A case study for teaching biochemistry. A plant mutant screen CURE integrated with core biology concepts showed effectiveness in course design and students' perceived learning gains.
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