Supporting Student Active Engagement in Chemistry Learning with Computer Simulations

Authors

DOI:

https://doi.org/10.56059/jl4d.v10i3.802

Keywords:

Distance teacher education, self learning material, pedagogy, learning design, deep learning

Abstract

This case study is an attempt to investigate how computer simulations can contribute to engaging students’ active participation in knowledge creation through chemistry learning. Empirical data were collected through interviews, a survey, and a test on secondary school student performance in Rwanda. The findings reveal four main forms of participating in knowledge construction with computer simulations: self-reliance, peer collaboration-reliance, teacher-guided-reliance, and strategic variation-reliance. The study found no statistical difference between male and female students’ preferences while engaging with these forms. There was also no difference in their performance in terms of higher order thinking skills in chemistry learning with computer simulations. Moreover, the findings demonstrated that computer simulations can help students to create multisensory connections enabling them to become actively engaged in chemistry learning through various settings. Consequently, the lines between abstract concepts and their related chemical reactions and processes become closely connected in a virtual reality. Finally, this study suggests a pedagogical strategy that teachers can undertake to support student active engagement in chemistry learning with computer simulations.

Author Biographies

Evode Mukama, Commonwealth of Learning

Evode Mukama is an Adviser: Teacher Education at the Commonwealth of Learning, Burnaby, British Columbia, Canada. Evode's research and practice involve enhancing the quality of open distance learning and technology-enabled learning service delivery in teacher education, improving students' learning outcomes through policy and course development, and strengthening teacher capacity in collaboration with governments and educational institutions. Email: emukama@col.org (Orcid: https://orcid.org/0000-0001-7238-3731).

Prisca Byukusenge, University of Rwanda, College of Education, African Centre of Excellence for Innovative Teaching and Learning Mathematics and Science

Prisca Byukusenge is a secondary school teacher in chemistry and a Former Masters' student of the University of Rwanda, College of Education, African Centre of Excellence for Innovative Teaching and Learning Mathematics and Science, Rwanda. Prisca has extensive experience facilitating Massive Open Online Courses as a teaching assistant, with a focus on leveraging computer simulations in teaching science. Email: sengaprisca@gmail.com sengaprisca@gmail.com (Orcid: https://orcid.org/0009-0003-1264-2780).

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Published

2023-11-17

How to Cite

Mukama, E., & Byukusenge, P. (2023). Supporting Student Active Engagement in Chemistry Learning with Computer Simulations. Journal of Learning for Development, 10(3), 427–439. https://doi.org/10.56059/jl4d.v10i3.802

Issue

Vol. 10 No. 3 (2023): ISSUE 3

Section

Case Studies

License

Copyright (c) 2023 Evode Mukama, Ms Prisca

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Received 2022-09-26
Accepted 2023-10-25
Published 2023-11-17