Engaging Primary School Students in Mathematics: Can iPads Make a Difference?
Research on the impact of the integration of technologies such as iPads on primary students’ attitudes and engagement in mathematics is limited. Further, there have been claims that teachers’ pedagogical choices can strongly influence the effectiveness of iPads for engaging students in mathematics. This paper presents an investigation of the influence of teaching and learning mathematics with iPads on students’ attitudes and engagement in mathematics. The participants in this study were students in a large urban primary school, implementing an iPad program for teaching and learning across the curriculum. Surveys with five-point Likert-type items were used to measure students’ attitudes to mathematics. Students from Years 2 to 6 completed the survey at the beginning and end of two consecutive school years. Survey results suggested that iPad use in mathematics has the potential to impact positively on students’ attitudes to mathematics. At the end of the second year of the study, semi-structured interviews were conducted with teachers and students. The interview responses confirmed that iPads had a positive influence on students’ engagement and attitudes to mathematics, and that the pedagogical approaches utilised by teachers for embedding iPads in their mathematics lessons contributed positively to these outcomes.
KeywordsPrimary school mathematics iPads in mathematics Engagement Attitudes to mathematics
The author would like to thanks the teachers and students who participated in this study and Dr. Geoff Hilton for his contribution and helpful comments on drafts of this manuscript.
- Attard, C. (2013a). iPads and primary mathematics. Australian Primary Mathematics Classroom, 18(4), 38–40.Google Scholar
- Attard, C. (2013b). Thanks for the iPads, but what do we do with them? Integrating iPads into the teaching and learning of primary mathematics. Curriculum and Leadership Journal, 11(1). Retrieved from http://www.curriculum.edu.au/leader/integrating_ipads_into_the_teaching_and_learning_o,35917.html?issueID=12708.
- Attard, C. (2014). ‘I don’t like it, I don’t love it, but I do it and I don’t mind’: Introducing a framework for engagement with mathematics. Curriculum Perspectives, 34(3), 1–14.Google Scholar
- Attard, C. (2015). Engagement and mathematics: What does it look like in your classroom? Journal of Professional Learning, Semester 2. Retrieved from http://cpl.asn.au/journal/semester-2-2015/engagement-and-mathematics-what-does-it-look-like-in-your-classroom.
- Attard, C. & Curry, C. (2012). Exploring the use of iPads to engage young students with mathematics. In J. Dindyal, L. P. Cheng, & S. F. Ng (Eds.), Mathematics Education: Expanding Horizons. Proceedings of the 35th Annual Conference of the Mathematics Education Research Group of Australasia (MERGA) (pp. 75-82). Singapore: MERGA.Google Scholar
- Attard, C. & Northcote, M. (2011). Mathematics on the move: Using mobile technologies to support student learning (Part 1). Australian Primary Mathematics Classroom, 16(4), 29–31.Google Scholar
- Brace, N., Kemp, R. & Snelgar, R. (2009). SPSS for psychologists. Basingstoke, United Kingdom: Palgrave Macmillan.Google Scholar
- Cohen, L., Manion, L. & Morrison, K. (2000). Research methods in education (5th ed.). London, United Kingdom: Routledge Falmer.Google Scholar
- Commonwealth of Australia (2008). National numeracy review report. Canberra, Australia: Author.Google Scholar
- Dowker, A., Bennett, K. & Smith, L. (2012). Attitudes to mathematics in primary school children. Child Development Research, 2012. http://dx.doi.org/10.1155/2012/124939Google Scholar
- Goos, M., Dole, S., & Geiger, V. (2012). Auditing the numeracy demands of the Australian curriculum. In J. Dindyal, L. P. Cheng, & S. F. Ng (Eds.), Mathematics Education: Expanding Horizons: Proceedings of the 35th Annual Conference of the Mathematics Education Research Group of Australasia (MERGA) (pp.314-321). Singapore: MERGA.Google Scholar
- Handal, B., Novak, A., Watson, K., Maher, M., MacNich, J., & Eddles-Hirsch, K. (2014). Numeracy education through mobile apps. Middle Years of Schooling Association, 14(1), 28-37. Retrieved from www.adolescentsuccess.org.au.
- Hattie, J. (2003). Teachers make a difference: What is the research evidence? Paper presented at the Building Teacher Quality: The ACER Annual Conference, Melbouren, Australia.Google Scholar
- Ireland, G. V. & Woollerton, M. (2010). The impact of the iPad and iPhone on education. Journal of Bunkyo Gakuin University Department of Foreign Languages and Bunkyo Gakuin College, 10, 31–48.Google Scholar
- Kunzler, G. (2011, September 11). iPads motivate students to learn, improve the education experience. iPad News. Retrieved from http://www.mactrast.com/2011/11/ipads-motivate-students-to-learn-improve-the-education-experience.
- Kyanka-Maggart, J. (2013). iPads, motivation, self-efficacy, engagement in upper elementary school mathematics (Unpublished doctoral dissertation). Baker University, Baldwin City, KS.Google Scholar
- Kyriacou, C. & Goulding, M. (2006). A systematic review of strategies to raise pupils’ motivational effort in Key Stage 4 mathematics. London, United Kingdom: EPPI Centre, Institute of Education.Google Scholar
- Larkin, K. & Jorgensen, H. (2015). ‘I hate maths: Why do we need to do maths?’ Using iPad video diaries to investigate attitudes and emotions towards mathematics in Year 3 and Year 6 students. International Journal of Science and Mathematics Education, 14(5), 925–944. doi: 10.1007/s10763-015-9621-x.
- McLeod, D. B. (1992). Research on affect in mathematics education: A reconceptualization. In D. A. Grouws (Ed.), Handbook of research on mathematics teaching and learning (pp. 575–596). New York, NY: Macmillan.Google Scholar
- O’Malley, P., Jenkins, S., Wesley, B., Donehower, C., Rabuck, D. & Lewis, M. (2013). Effectiveness of using iPads to build math fluency. Paper presented at 2013 Council for Exceptional Children Annual Meeting, San Antonio, TX.Google Scholar
- Pintrich, P. R. & Zusho, A. (2002). The development of academic self-regulation: The role of cognitive and motivational factors. In A. Wigfield & J. S. Eccles (Eds.), Development of achievement motivation (pp. 249–284). San Diego, CA: Academic.Google Scholar
- Shah, N. (2011). iPads become learning tools for students with disabilities. Education Week, 5(1), 12.Google Scholar
- Singer, J. (2015). The effects of iPad devices on elementary school students’ mathematics achievement and attitudes Doctoral dissertation). Retrieved from Northeastern University Digital Raspitory Service (D20198325).Google Scholar
- Thompson, B. (2004). Exploratory and confirmatory factor analysis: Understanding concepts and applications. Washington, DC: American Psychological Association.Google Scholar
- Usher, E. & Pajares, F. (2006). Inviting confidence in school: Invitations as a critical source of the academic self-efficacy beliefs of entering middle school students. Journal of Invitational Theory and Practice, 12(7), 7–16.Google Scholar