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Physics Computational Literacy: An Exploratory Case Study Using Computational Essays

Physics Education 2020-01-01 v2

Abstract

Computation is becoming an increasingly important part of physics education. However, there are currently few theories of learning that can be used to help explain and predict the unique challenges and affordances associated with computation in physics. In this study, we adapt the existing theory of computational literacy, which posits that computational learning can be divided into material, cognitive, and social aspects, to the context of undergraduate physics. Based on an exploratory study of undergraduate physics computational literacy, using a newly-developed teaching tool known as a computational essay, we have identified a variety of student practices, knowledge, and beliefs across these three aspects of computational literacy. We illustrate these categories with data collected from students who engaged in an initial implementation of computational essays in an introductory electricity and magnetism class. We conclude by arguing that this framework can be used to theoretically diagnose student difficulties with computation, distinguish educational approaches that focus on material vs. cognitive aspects of computational literacy, and highlight the benefits and limitations of open-ended projects like computational essays to student learning.

Keywords

Cite

@article{arxiv.1910.03316,
  title  = {Physics Computational Literacy: An Exploratory Case Study Using Computational Essays},
  author = {Tor Ole B. Odden and Elise Lockwood and Marcos D. Caballero},
  journal= {arXiv preprint arXiv:1910.03316},
  year   = {2020}
}

Comments

Accepted for publication in Physical Review Physics Education Research

R2 v1 2026-06-23T11:37:26.632Z