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Cracking the Code: An Evidence-Based Approach to Teaching Python in an Undergraduate Earth Science Setting

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Název: Cracking the Code: An Evidence-Based Approach to Teaching Python in an Undergraduate Earth Science Setting
Jazyk: English
Autoři: Ethan C. Campbell (ORCID 0000-0002-8588-7506), Katy M. Christensen (ORCID 0000-0003-1064-2245), Mikelle Nuwer (ORCID 0009-0005-2291-8634), Amrita Ahuja, Owen Boram, Junzhe Liu (ORCID 0000-0002-5538-8992), Reese Miller, Isabelle Osuna, Stephen C. Riser
Zdroj: Journal of Geoscience Education. 2025 73(3):239-258.
Dostupnost: Routledge. Available from: Taylor & Francis, Ltd. 530 Walnut Street Suite 850, Philadelphia, PA 19106. Tel: 800-354-1420; Tel: 215-625-8900; Fax: 215-207-0050; Web site: http://www.tandf.co.uk/journals
Peer Reviewed: Y
Page Count: 20
Datum vydání: 2025
Sponsoring Agency: National Oceanic and Atmospheric Administration (NOAA) (DOC)
US Department of Defense (DOD)
National Aeronautics and Space Administration (NASA)
National Science Foundation (NSF)
Contract Number: NA20OAR4320271
80NSSC19K1252
Druh dokumentu: Journal Articles
Reports - Research
Education Level: Higher Education
Postsecondary Education
Descriptors: Earth Science, Undergraduate Students, Programming Languages, Computer Software, Oceanography, Science Education, Course Descriptions, Teaching Methods, Instructional Design, Independent Study, Scientific Research, Introductory Courses, Constructivism (Learning), Computer Science Education
Geografický termín: Washington
DOI: 10.1080/10899995.2024.2384338
ISSN: 1089-9995
Abstrakt: Scientific programming has become increasingly essential for manipulating, visualizing, and interpreting the large volumes of data acquired in earth science research. Yet few discipline-specific instructional approaches have been documented and assessed for their effectiveness in equipping geoscience undergraduate students with coding skills. Here we report on an evidence-based redesign of an introductory Python programming course, taught fully remotely in 2020 in the School of Oceanography at the University of Washington. Key components included a flipped structure, activities infused with active learning, an individualized final research project, and a focus on creating an accessible learning environment. Cloud-based notebooks were used to teach fundamental Python syntax as well as functions from packages widely used in climate-related disciplines. By analyzing quantitative and qualitative data from surveys, online learning platforms, student work, assessments, and a focus group, we conclude that the instructional design facilitated learning and supported self-guided scientific inquiry. Students with less or no prior exposure to coding achieved similar success as peers with more experience, an outcome likely mediated by higher engagement with course resources. We believe that the constructivist approach to teaching introductory programming and data literacy that we present could be broadly applicable across the earth sciences and in other scientific domains.
Abstractor: As Provided
Entry Date: 2025
Přístupové číslo: EJ1476373
Databáze: ERIC
Popis
Abstrakt:Scientific programming has become increasingly essential for manipulating, visualizing, and interpreting the large volumes of data acquired in earth science research. Yet few discipline-specific instructional approaches have been documented and assessed for their effectiveness in equipping geoscience undergraduate students with coding skills. Here we report on an evidence-based redesign of an introductory Python programming course, taught fully remotely in 2020 in the School of Oceanography at the University of Washington. Key components included a flipped structure, activities infused with active learning, an individualized final research project, and a focus on creating an accessible learning environment. Cloud-based notebooks were used to teach fundamental Python syntax as well as functions from packages widely used in climate-related disciplines. By analyzing quantitative and qualitative data from surveys, online learning platforms, student work, assessments, and a focus group, we conclude that the instructional design facilitated learning and supported self-guided scientific inquiry. Students with less or no prior exposure to coding achieved similar success as peers with more experience, an outcome likely mediated by higher engagement with course resources. We believe that the constructivist approach to teaching introductory programming and data literacy that we present could be broadly applicable across the earth sciences and in other scientific domains.
ISSN:1089-9995
DOI:10.1080/10899995.2024.2384338