The performance and analysis of pre-service teachers’ cognitive demands and content domains in primary mathematics education

M. Rabaza; M. Mosimege

doi:10.20853/40-3-6900

Authors

M. Rabaza University of the Free State https://orcid.org/0000-0003-2219-6131
M. Mosimege University of the Free State https://orcid.org/0000-0003-4685-3423

DOI:

https://doi.org/10.20853/40-3-6900

Keywords:

content domains, cognitive demands, higher-order thinking, initial teacher education lower-order thinking

Abstract

Teacher educators in universities globally and in South Africa struggle to prepare and challenge primary school preservice teachers with mathematics content that demands them to reason at a higher level of cognition. This article provides an analysis of cognitive demands and content domains of fourth-year preservice teachers at a South African university who are trained to teach mathematics in the intermediate phase. In this mixed-method research study, a total of 30 fourth-year students participated in an online Primary Teacher Education (PrimTed) test. The data from the PrimTed online test were analysed using MS Excel version 2207 software and manually sorted to identify higher-order responses to answer the research question. The findings revealed that the fourth-year students performed high on lower-order concepts and low on higher-order concepts. The findings also reveal that preservice teachers performed low on decimals, measurement, and pattern tasks. The conclusion is that teacher education programmes in similar higher education institutions need to emphasise the analysis and interpretation of higher-order thinking skills for fourth-year student teachers

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Author Biographies

M. Rabaza, University of the Free State

Department of Mathematics Natural Science and Technology Education, Faculty of Education

M. Mosimege, University of the Free State

Department of Mathematics Natural Science and Technology Education in the Faculty of education

References

Anthony, M., M. Walton, and W. Viviani. 2020. Pre-service teachers’ operationalization of cognitive demand across context. Mathematics Education Across Cultures. Proceedings of the 42nd Meeting of the North American Chapter of the International Group for the Psychology of Mathematics Education. Mexico, Cinvestav / AMIUTEM / PME-NA. https:/doi.org/10.51272/pmena.42.2020

Arnal-Bailera, A. and M. Arnal-Palacián. 2023. “Pre-service teachers develop their mathematical knowledge for teaching using manipulative materials in mathematics.” EURASIA Journal of Mathematics, Science and Technology Education, 19(9): 1‒12. https://doi.org/10.29333/ejmste/13470

Ayieko, R. A., G. Moreano, and L. Harter. 2022. “A cross-national comparison of fourth and eighth-grade students’ understanding of fraction magnitude.” International Electronic Journal of Mathematics Education, 17(4): 1–6. https://doi.org/10.29333/iejme/12287

Basyal, D., Jones, D.L. & Thapa, M. 2023. Cognitive Demand of Mathematics Tasks in

Nepali Middle School Mathematics Textbooks. Int J of Sci and Math Educ 21, 863–879. https://doi.org/10.1007/s10763-022-10269-3

Bowie, L., H. Venkat, and M. Askew, 2019. Pre-service primary teachers’ mathematical knowledge for teaching: an exploratory study. African Journal of Research in Mathematics, Science and Technology Education 23(1): 286–297. https://doi.org/10.1080/18117295.2019.1682777

Butler, A. C. 2018. “Multiple-Choice Testing in Education: Are the Best Practices for Assessment Also Good for Learning?” Journal of Applied Research in Memory and Cognition, 7(3): 323‒331. https://doi.org/10.1016/j.jarmac.2018.07.002

Catanzano, T., S. G. Jordan, and P. J. Lewis, 2022. “Great question! The art and science of crafting high-quality multiple-choice items.” Journal of American College of Radiology, 19(6): 687-692. https://doi.org/10.1016/j.jact.2022.01.016

Chamberlin, M. T. and M. Candelaria, 2018. “Learning from Teaching Teachers: A Lesson Experiment in Area and Volume with Prospective Teachers.” Mathematics Teacher Education and Development 20(1), 86‒111.

Cheng, D., Z. Feldman, and S. Chapin, S. 2011. “Maintaining cognitive demands of tasks through small group discussion in preservice elementary mathematics classrooms.” In Wiest, L. R., and T. Lamberg, (Eds.), Proceedings of the 33rd annual conference of the North American Chapter of the International Group for the Psychology of Mathematics Education. Reno, NV: University of Nevada, Reno.

Chinnappan, M. and P. Forrester, 2014. ”Generating procedural and conceptual knowledge of fractions by pre-service teachers.” Mathematics Education Research Journal 26: 871–896. DOI 10.1007/s13394-014-0131-x

Denizli, Zeynep Akkurt, and Abdulkadir Erdoğan. 2022. "An investigation on

primary school students’3d geometric thinking." International Online Journal of Primary Education (IOJPE) 11, no. 1: 168-186.

Đokić, O. J., M. S. Jelić, and S. M. Ilić, 2020. “The Correlation between Figural and Conceptual Properties of Angle and Cube in Pre-Service Teachers Geometric Reasoning.” Inovacije u nastavi - časopis za savremenu nastavu, 33(1): 1–20.

Estrella, S., D. Zakaryan, R. Olfos, and G. Espinoza, 2020. How teachers learn to maintain the cognitive demand of tasks through Lesson Study. Journal of Mathematics Teacher Education, 23: 293‒310. https://doi.org/10.1007/s10857-018-09423-y

Fonseca, K., J. Maseko, and N. Roberts. 2018. Students mathematical knowledge in a bachelor of education (foundation or intermediate phase programme. In Govender, R. and Junqueira. K. (2018). Proceedings of the 24th Annual National 23 Congress of the Association for mathematics education of South Africa. Free State 2018, 124‒139, Free State, Bloemfontein,

Hill, H., B. Rowan, and D. Ball, 2005. “Effects of Teachers’ Mathematical Knowledge on Student Achievement.” American Educational Research Journal, 42(2): 371‒406.

Jansen, T. and J. Möller, 2022. “Teacher judgments in school exams: Influences of students' low order-thinking skills on the assessment of students’ higher- order-thinking skills.” Teaching and Teacher Education, 111: 1–10 Kessler, A. M., M. K. Stein, and C. D. Schunn, 2015. “Cognitive demand of model tracing tutor tasks: Conceptualizing and predicting how deeply students engage.” Technology, Knowledge and Learning: Learning mathematics, science and the arts in the context of digital technologies 20(3): 317– 337. https://doi.org/10.1007/s10758-015-9248-6

Kilic, H. 2010. The nature of preservice mathematics teachers’ knowledge of students.

Procedia Social and Behavioral Sciences, 9, 1096–1100

Koponen, M., M. A. Asikainen, A. I. Viholainen, and P. E. Hirvonen, 2017. “How Education Affects Mathematics Teachers’ Knowledge: Unpacking Selected Aspects of Teacher Knowledge.” EURASIA Journal of Mathematics Science and Technology Education 13(6): 1943‒1980. DOI 10.12973/eurasia.2017.01209a

Lin, P. J. & Tsai, W. H. 2015. Maintaining high level of cognitive demand using research

based cases. In L. Fan, N. Y. Wong, J. Cai, & S. Li, (Eds). How Chinese teach mathematics: perspectives from insiders. London: World Scientific Publishing.

Livy, S. and C. Vale. 2011. First Year Pre-service Teachers’ Mathematical Content Knowledge: Methods of Solution for a Ratio Question. Mathematics Teacher Education and Development, 13(2), 22–43.

Mbusi, N. P. and K. Luneta. 2021. “Mapping Pre-service teachers’ faulty reasoning in geometric translations to the design of Van Hiele phase-based instruction.” South African Journal of Childhood Education, 11(1), 1‒11. https://doi.org/10.4102/sajce.v11i1.871

Mok, M., C. Mo, J. Z. McInerney, M. Dennis, and A. Or, 2015. “Growth in mathematics cognitive and content domains: A 6-year longitudinal study.” Assessment & Learning 3: 129‒159.

Ndlovu, Z., N. Amin, and M. A. Samuel, 2017. “Examining Preservice Teachers’ Subject Matter Knowledge of School Mathematics Concepts.” Journal of Education 70: 46–72.

Reifman, N. 2011. Certification review of pharmacy technicians. Ninth edition. United States of Ameica: Authorhouse.

Rinjaya, D., & Halimi, S. S. 2022. An Evaluation of Indonesian Textbooks Using Revised

Bloom’s Taxonomy. OKARA: Jurnal Bahasa Dan Sastra, 16(1), 1-18. https://doi.org/10.19105/ojbs.v16i1.5813

Rittle-Johnson, B., E. L. B. Zippert, and L. Katherine, 2019. “The roles of patterning and spatial skills in early mathematics development.” Early Childhood Research Quarterly, 46: 166‒178.

Scully, D. 2017. “Constructing Multiple-choice Items to Measure Higher-Order Thinking.” Practical Assessment, Research, and Evaluation 22(4): 1‒13 https://doi.org/10.7275/swgt- rj52

Simkin, M. G. and W. L. Kuechler. 2005. “Multiple-Choice Tests and Student Understanding: What Is the Connection?” Decision Sciences Journal of Innovative Education 3(1): 73–97.

Stein, M. K., M. S. Smith, M. A. Henningsen, and E. S. Silver, 2000. Implementing standards-based mathematics instruction: A casebook for professional development. New York: Teacher College

Stein, M. K., B. W. Grover, and M. Henningsen, 1996. Building student capacity for mathematical thinking and reasoning: An analysis of mathematical tasks used in reform classrooms. American Educational Research Journal, 33(2),455‒488. https://doi.org/10.2307/1163292

Suselo, T., Wünsche, B. and A. Luxton-Reilly, 2022. Why are 3D formations in computer graphics so difficult? An analysis of a decade of exam questions. In Judy. Sheard, and Paul Denny (Eds.), ACE ’22: Australasian computing Education Conference. Virtual event Australia, February 14‒18. https://doi.org/10.1145/3511861.3511881

Uhlířová, M., J. Laitochová, and E. Kočařová, 2022. Readiness of future primary- school teachers to solve non-standard mathematical problems. https://doi.org/10.36315/2022v1end051

fWakhata, R., V. Mutarutinya, and S. Balimuttajjo, 2023. “Exploring the impact of Stein et al.’s levels of cognitive demand in supporting students’ mathematics heuristic problem-solving abilities.” Front. Educ. 8:949988. https://doi.org/10.3389/feduc.2023.949988

The performance and analysis of pre-service teachers’ cognitive demands and content domains in primary mathematics education

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M. Rabaza, University of the Free State

M. Mosimege, University of the Free State

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