Covid-19 and the need for the use of digital gamebased learning for teaching mathematics at the Saudi elementary schools
Keywords:
Game-Based Learning, Mathematics, Teaching, Saudi Elementary Schools, Need AnalysisAbstract
The ongoing Covid-19 pandemic has further underlined of significance of technology for the future of education. In spite of the unprecedented development in education, teaching and learning of mathematics is dominated by the conventional teacher-centred methods of teaching particularly in Saudi elementary schools. However, with Covid-19 forcing changes in educational system throughout the world, technology must be put in place in ensuring that learners continue to learn regardless of such situations. The aim of this paper is to demonstrate the need of the use of digital gamebased learning for the teaching of mathematics at the Saudi elementary schools. The paper uses qualitative in-depth interviews as the paper’s method of data collection to ascertain the need (or lack of it thereof) of adopting digital gamebased learning for the teaching of mathematics at the elementary level. A total of 16 interviews were carried out which were thematically analyzed with the aid of NVivo software application. Findings of the paper revealed that the teachers believe that there is indeed need for the use of digital game-based learning for the teaching of arithmetic at the elementary school as it will improve methods and help pupils learn in a better and faster ways, combine learning, gaming and technology, and eliminate boredom usually students associate with mathematics learning. The paper concluded that mathematics teachers as well as students are in need of a radical approach that reduces boredom and makes the subject of mathematics appealing to learners.
References
. Abouelnaga, H. M., Metwally, A. B., Mazouz, L. A., Abouelmagd, H., Alsmadi, S., Aljamaeen, R., Eljawad, L., & Hamad, A. L. (2019). A survey on educational technology in Saudi Arabia. Int. J. Appl. Eng. Res., 14(22), 4149–4160.
. Al-Emran, M., Mezhuyev, V., & Kamaludin, A. (2018). Technology Acceptance Model in M-learning context: A systematic review. Computers & Education, 125, 389–412.
. Alghamdi, M. H. (2018). Teacher Collaboration and Student Outcomes in Saudi Arabia: An analysis of TIMSS Data. University of Kansas.
. Alqarni, A. A. (2015). Educational technology in Saudi Arabia: A historical overview. International Journal of Education, Learning and Development, 3(8), 62–69.
. Alzahrani, S. (2017). Saudi Mathematics Teachers’ Understanding and Practices of Formative Assessment in Elementary Schools. ERIC.
. Amirian, Z., & Tavakoli, M. (2009). Reassessing the ESP courses offered to engineering students in Iran. English for Specific Purposes World, 8(23), 1–13.
. Boyle, E. A., MacArthur, E. W., Connolly, T. M., Hainey, T., Manea, M., Kärki, A., & Van Rosmalen, P. (2014). A narrative literature review of games, animations and simulations to teach research methods and statistics. Computers & Education, 74, 1–14.
. Braun, V., Clarke, V., Hayfield, N., & Terry, G. (2019). Thematic analysis. Handbook of Research Methods in Health Social Sciences, 843–860.
. Brown, J. D. (2005). Research methods for applied linguistics. In The Handbook of Applied Linguistics (pp. 476–500). Blackwell.
. Byun, J., & Joung, E. (2018). Digital game‐based learning for K–12 mathematics education: A meta‐analysis. School Science and Mathematics, 118(3–4), 113–126.
. Chang, C.-C., Liang, C., Chou, P.-N., & Lin, G.-Y. (2017). Is game-based learning better in flow experience and various types of cognitive load than non-game-based learning? Perspective from multimedia and media richness. Computers in Human Behavior, 71, 218–227.
. Chang, R.-C., & Yang, C.-Y. (2016). Developing a mobile app for game-based learning in middle school mathematics course. 2016 International Conference on Applied System Innovation (ICASI), 1–2.
. Deng, L., Wu, S., Chen, Y., & Peng, Z. (2020). Digital game‐based learning in a Shanghai primary‐school mathematics class: A case study. Journal of Computer Assisted Learning.
. Hainey, T., Connolly, T. M., Boyle, E. A., Wilson, A., & Razak, A. (2016). A systematic literature review of gamesbased learning empirical evidence in primary education. Computers & Education, 102, 202–223.
. Hung, H.-T., Yang, J. C., Hwang, G.-J., Chu, H.-C., & Wang, C.-C. (2018). A scoping review of research on digital gamebased language learning. Computers & Education, 126, 89–104.
. Hussein, M. H., Ow, S. H., Cheong, L. S., Thong, M.-K., & Ebrahim, N. A. (2019). Effects of digital game-based learning on elementary science learning: A systematic review. IEEE Access, 7, 62465–62478.
. Hwa, S. P. (2018). Pedagogical change in mathematics learning: Harnessing the power of digital game-based learning. Journal of Educational Technology & Society, 21(4), 259–276.
. Jusoh, N., Salam, R. A., & Sayuti, M. N. S. M. (2012). Color Image Enhancement using Contrast Stretching on a Mobile Device. Faculty of Science and Technology, Universiti Sains Islam Malaysia, Negeri Sembilan, 1(3).
. Kiili, K., & Ketamo, H. (2017). Evaluating cognitive and affective outcomes of a digital game-based math test. IEEE Transactions on Learning Technologies, 11(2), 255–263.
. Long, M. H. (2005). Methodological issues in learner needs analysis. Second Language Needs Analysis, 19–76.
. Mansour Alabdulaziz, P., & Higgins, S. (2017). Understanding Technology Use and Constructivist Strategies when Addressing Saudi Primary Students’ Mathematic s Difficulties.
. Perera, H., Hewagamage, K. P., & Weerasinghe, T. A. (2017). Game based learning as a supplementary approach in teaching mathematics. 2017 Seventeenth International Conference on Advances in ICT for Emerging Regions (ICTer), 1–7.
. Pratama, L. D., & Setyaningrum, W. (2018). Game-Based Learning: The effects on student cognitive and affective aspects. Journal of Physics: Conference Series, 1097(1), 12123.
. Qian, M., & Clark, K. R. (2016). Game-based Learning and 21st century skills: A review of recent research. Computers in Human Behavior, 63, 50–58.
. Richey, R. C., & Klein, J. D. (2005). Developmental research methods: Creating knowledge from instructional design and development practice. Journal of Computing in Higher Education, 16(2), 23–38.
. Richey, R. C., & Klein, J. D. (2014). Design and development research: Methods, strategies, and issues. Routledge.
. Richey, R. C., Klein, J. D., & Nelson, W. A. (2004). Developmental research: Studies of instructional design and development. Handbook of Research for Educational Communications and Technology, 2, 1099–1130.
. Troussas, C., Krouska, A., & Sgouropoulou, C. (2020). Collaboration and fuzzy-modeled personalization for mobile game-based learning in higher education. Computers & Education, 144, 103698.
. Zohoorian, Z. (2015). A needs analysis approach: An investigation of needs in an EAP context. Theory and Practice in Language Studies, 5(1), 58–65.
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