Modeling Action Research for Pre-Service Teachers as Part of a Primary Maths Method Class

DOI: 10.4236/ce.2013.412105   PDF   HTML     3,726 Downloads   5,089 Views   Citations


How does an early academic, who has specialized training in educational statistics and measurement, approach the teaching of a primary mathematics methods course for first and second year pre-service teachers? The research study presented here explores the design and delivery of a newly developed, singlesemester (36 hours over 9 weeks), course for a combined first and second year pre-service teachers in primary mathematics in a Bachelor of Education (BEd) program. Over the nine week period, the course lecturer and tutorial instructors used action research methodologies to collect and analyze data from the course. Through these data collection and analysis, the authors identified students’ common concerns and apprehensions and utilized them as a basis for efforts to enact change for the betterment of the students involved in the class. The collection and analysis of the data as well as the specific actions taken by the authors to these identified concerns and apprehensions are the focus of this paper.

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Milford, T. , Hellaby, L. & Strang, R. (2013). Modeling Action Research for Pre-Service Teachers as Part of a Primary Maths Method Class. Creative Education, 4, 747-751. doi: 10.4236/ce.2013.412105.

Conflicts of Interest

The authors declare no conflicts of interest.


[1] Booker, G., Bond, D., Sparrow, L., & Swan, P. (2010). Teaching primary mathematics (4th ed.). Malaysia: Pearson.
[2] English, L. D., & Halford, G. S. (1995). Mathematics education: Models and processes. Mahawah, NJ: Lawrence Erlbaum Associates.
[3] Ferrance, E. (2000). Themes in education: Action research. Providence, RI: Northeast and Islands Regional Educational Laboratory.
[4] Grouws, D. A. (1992). Handbook of research on mathematics teaching and learning. New York: Macmillian.
[5] Gurganus, S. P. (2007). Math instruction for students with learning problems. Sydney: Pearson.
[6] Handal, B. (2003). Teacher’s mathematical beliefs: A review. The Mathematics Educator, 15, 47-57.
[7] Haugen, L. (1999). Classroom assessment techniques.
[8] Huinker, D., & Madison, S. K. (1997). Preparing efficacious elementary teachers in science and mathematics: The influence of methods courses. Journal of Science Teacher Education, 8, 107-126.
[9] Jorgeson, R., & Dole, S. (2011). Teaching mathematics in primary school (2nd ed.). Crows Nest, NSW: Allen & Unwin.
[10] Quinn, R. J. (1997). Effects of mathematics methods courses on the mathematical attitudes and content knowledge of pre-service teachers. Journal of Educational Research, 91, 108-113.
[11] Rech, J., Hartzell, J., & Stephens, L. (1993). Comparisons of mathematical competencies and attitudes of elementary education majors with established norms of a general college population. School Science and Mathematics, 93, 141-145.
[12] Sturat, C., & Thurlow, D. (2000). Making it their own: Pre-service teachers’ experiences, beliefs, and classroom practices. Journal of Teacher Education, 51, 113-121.
[13] Thompson, A. G. (1992). Teachers’ beliefs and conceptions: A synthesis of the research. In D. A. Grouws (Ed.), Handbook of research on mathematics teaching and learning (pp. 127-146). New York: Macmillian.
[14] Uusimaki, L., & Nason, R. (2004). Causes underlying pre-service teachers’ negative beliefs and anxieties about mathematics. Proceedings of the 28th Conference of the International Group for the Psychology of Mathematics Education, 4, 369-376.
[15] Van de Walle, J. A., Karp, K. S., & Bay-Williams, J. M. (2013). Elementary and middle school mathematics: Teaching developmentally (8th ed.). Upper Saddle River, NJ: Pearson.

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