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Developing Computational Thinking Teaching Strategies to Model Pandemics and Containment Measures

Author

Listed:
  • Roberto Araya

    (Center for Advanced Research in Education, Institute of Education, Universidad de Chile, Santiago 8320000, Chile)

  • Masami Isoda

    (Faculty of Humanities and Social Sciences, University of Tsukuba, Tsukuba 305-8577, Japan)

  • Johan van der Molen Moris

    (MRC Biostatistics Unit, University of Cambridge, Cambridge CB2 0SR, UK)

Abstract

COVID-19 has been extremely difficult to control. The lack of understanding of key aspects of pandemics has affected virus transmission. On the other hand, there is a demand to incorporate computational thinking (CT) in the curricula with applications in STEM. However, there are still no exemplars in the curriculum that apply CT to real-world problems such as controlling a pandemic or other similar global crises. In this paper, we fill this gap by proposing exemplars of CT for modeling the pandemic. We designed exemplars following the three pillars of the framework for CT from the Inclusive Mathematics for Sustainability in a Digital Economy (InMside) project by Asia-Pacific Economic Cooperation (APEC): algorithmic thinking, computational modeling, and machine learning. For each pillar, we designed a progressive sequence of activities that covers from elementary to high school. In an experimental study with elementary and middle school students from 2 schools of high vulnerability, we found that the computational modeling exemplar can be implemented by teachers and correctly understood by students. We conclude that it is feasible to introduce the exemplars at all grade levels and that this is a powerful example of Science Technology, Engineering, and Mathematics (STEM) integration that helps reflect and tackle real-world and challenging public health problems of great impact for students and their families.

Suggested Citation

  • Roberto Araya & Masami Isoda & Johan van der Molen Moris, 2021. "Developing Computational Thinking Teaching Strategies to Model Pandemics and Containment Measures," IJERPH, MDPI, vol. 18(23), pages 1-30, November.
    • Handle: RePEc:gam:jijerp:v:18:y:2021:i:23:p:12520-:d:689848
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    References listed on IDEAS

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    1. Michael Bond, 2009. "Decision-making: Risk school," Nature, Nature, vol. 461(7268), pages 1189-1192, October.
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    Cited by:

    1. Roberto Araya, 2023. "Connecting Classrooms with Online Interclass Tournaments: A Strategy to Imitate, Recombine and Innovate Teaching Practices," Sustainability, MDPI, vol. 15(10), pages 1-25, May.

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