International Journal of Learning, Teaching and Educational Research

This paper investigates entry-level student teachers' mathematical knowledge for teaching in the Further Education and Training phase (FET) through Baseline Assessment. The study employed a quantitative research technique. The data collection instrument was a mathematics subject knowledge test (Baseline Assessment) for FET phase student teachers. Purposive and convenient sampling methods were employed in the study. The study enlisted the participation of 222 first-year mathematics education student teachers from a rural Higher Education Institution (HEI) specialising in FET phase mathematics teaching. One hundred and seventy-five (175) student teachers completed the Baseline Assessment for all grades in this study (10, 11, and 12). The Baseline Assessment findings were examined using descriptive statistics. The results revealed that student teachers have a moderate knowledge of mathematics topics in the FET phase at the entry-level. In addition, an adequate level of understanding for teaching Grades 10 and 12 Patterns, Functions, Algebra, Space and Shape (Geometry), and Functional Relationships. While the elementary level of understanding for teaching grade 10 Measurement, Grade 11 Patterns, Functions, Algebra, and Trigonometry and Grade 12 Space and Shape (Geometry). There is no level of understanding for teaching FET phase Data and Statistics and Probability. The paper suggests that student teachers must develop a comprehensive understanding of the mathematics curriculum with the assistance of teacher educators in HEIs.

https://doi.org/10.26803/ijlter.21.8.1

Alex, J., & Roberts, N. (2019). The need for relevant initial teacher education for primary mathematics: Evidence from the Primary Teacher Education project in South Africa. In Proceedings of the 27th Conference of the Southern African Association for Research in Mathematics, Science and Technology Education (59-72).

Altinok, N. (2013). The Impact of Teacher Knowledge on Student Achievement in 14 Sub-Saharan African Countries. Retrieved from: http://unesdoc.unesco.org/images/0022/ 002258/225832e.pdf

Ball, D. L., Hill, H.C., & Bass, H. (2005). Knowing mathematics for teaching: Who knows mathematics well enough to teach third grade, and how can we decide? American Educator, 29(1), 14-17, 20-22, 43-46. https://deepblue.lib.umich.edu/bitstream/handle/2027.42/65072/Ball_F05.pdf

Ball, D. L., Thames, M. H., & Phelps, G. (2008). Content knowledge for teaching: What makes it special. Journal of teacher education, 59(5), 389-407. https://www.cpre.org/

Behrman, J. R., Ross, D., & Sabot, R. (2008). Improving quality versus increasing the quantity of schooling: Estimates of rates of return from rural Pakistan. Journal of Development Economics, 85, 94–104. https://reader.elsevier.com/reader/sd/pii/S0304387806001301

Burghes, D., & Geach, R. (2011). International comparative study in mathematics training: Recommendations for initial teacher training in England. CfBT Education Trust. https://www.nationalstemcentre.org.uk/res/documents/page/International%20comparative%20study%20in%20mathematics%20teacher%20training.pdf/.

Centre for Educational Research and Innovation (CERI) 2008. Assessment for Learning Formative Assessment. OECD/CERI International Conference “Learning in the 21st Century: Research, Innovation and Policy 15 – 16 May 2008

CETAP, (2020). The national benchmark tests. National report: 2019 intake cycle, Centre for Educational Testing for Access and Placement, University of Cape Town. https://nbt.uct.ac.za/sites/default/files/NBT%20 National%20Report%202019.pdf.

Deacon, R. (2016). The initial teacher education research project: Final report. Johannesburg: JET Education Services. https://www.admin.jet.org.za

Department of Basic Education. (2011). Curriculum assessment policy statements Grades 10 – 12 Mathematics.

Department of Basic Education. (2012). Curriculum assessment policy statements. http://www.education.gov.za/Curriculum/NCSGradesR12/CAPS/tabid/420/Default.aspx

Department of Basic Education. (2019). Mathematics Teaching and Learning Framework for South Africa: Teaching and Learning mathematics for understanding. Department Printers: Pretoria RSA. https://www.jet.org.za

Dolin, J., Black, P., Harlen, W., & Tiberghien, A. (2018). Exploring Relations Between Formative and Summative Assessment. In J. Dolin & R. Evans (Éd.), Transforming Assessment (Vol. 4, p. 53 80). Cham, Switzerland: Springer International Publishing. https://doi.org/10.1007/978-3-319-63248-3

Fonseca, K., Maseko, J., & Roberts, N. (2018). Students’ mathematical knowledge in a Bachelor of Education (Foundation or intermediate phase) programme. In Govender, R. & Jonquière, K. (2018) Proceedings of the 24th Annual National Congress of the Association for Mathematics Education of South Africa (124-139).

Goldsmith, L., Doerr, H., & Lewis, C. (2014). Mathematics teachers’ learning: A conceptual framework and synthesis of research. Journal of Mathematics Teacher Education, 17, 5–36. https://link.springer.com/content/pdf/10.1007/s10857-013-9245-4.pdf

Hill, H. C., Rowan, B., & Ball, D. L. (2005). Effects of Teachers’ Mathematical Knowledge for Teaching on Student Achievement. American Educational Research Journal, 42, 371–406. https://www.jstor.org/stable/pdf/3699380.pdf

Jacinto, E. L., & Jakobsen, A. (2020). Mathematical Knowledge for Teaching: How do Primary Student Teachers in Malawi Understand it? African Journal of Research in Mathematics, Science and Technology Education, 24(1), 31-40.

Jakimovik, S. (2013). Measures of mathematical knowledge for teaching and university mathematics courses design. u: Kiryakova V.[ur.]. In Complex Analysis and Applications' 13'(Proc. Intern. Conf. Sofia, 2013), Institute of Mathematics and Informatics, Bulgarian Academy of Sciences (118-138).

Julie, C. (2019). Assessment of teachers’ mathematical content knowledge through large-scale tests: What are the implications for CPD? Caught in the act: reflections on continuing professional development of mathematics teachers in a collaborative partnership, chapter 3, 37-53.

Khuzwayo, M. E., & Khuzwayo, H. B. (2020). Baseline Assessment in the Elementary Mathematics Classroom: Should it be Optional or Mandatory for Teaching and Learning? International Journal of Learning, Teaching and Educational Research, 19(8), 330-349. https://doi.org/10.26803/ijlter.19.8.18

Ma, L. (1999). Knowing and teaching elementary mathematics: Teachers’ understanding of fundamental mathematics in China and the United States. Mahwah: Lawrence Erlbaum Associates Inc.

Mullens, J. E., Murnane, R. J., & Willett, J. B. (1996). The Contribution of Training and Subject Matter Knowledge to Teaching Effectiveness: A Multilevel Analysis of Longitudinal Evidence from Belize. Comparative Education Review, 40(2), 139–157. https://www.jstor.org/stable/pdf/1189048.pdf

Narh-Kert, M. (2021). Predictive Validity of Entry-Level Mathematics: Mathematical Knowledge of Student Teachers for Teaching Basic School Mathematics in Ghana. LAP LAMBERT Academic Publishing.

Nguare, M. W., Hungi, N., & Mutisya, M. (2018). Assessing Learning: How can classroom-based teachers assess students' competencies in Numeracy. Journal of Assessment in Education, 26(2), 222-244. https://doi.org/10.1080/0969594X.2018.1503156

Patterson, C. L., Parrott, A., & Belnap, J. (June 2020). Strategies for assessing mathematical knowledge for teaching in mathematics content courses. In A. Appova, R. M. Welder, and Z. Feldman, (Eds.), Supporting Mathematics Teacher Educators’ Knowledge and Practices for Teaching Content to Prospective (Grades K-8) Teachers. Special Issue: The Mathematics Enthusiast, (17) 2 & 3, 807–842. Scholar Works: University of Montana. https://scholarworks.umt.edu/tme

Pino-Fan, L. R., Assis, A., & Castro, W. F. (2015). Towards a methodology for the characterization of teachers’ didactic-mathematical knowledge. EURASIA Journal of Mathematics, Science and Technology Education, 11(6), 1429-1456.

Reddy, V., Visser, M., Winnaar, L., Arends, F., Juan, A., Prinsloo, C. & Isdale, K. (2016). TIMSS 2015: Highlights of Mathematics and Science Achievement of Grade 9 South African Learners (Nurturing green shoots). Pretoria: Human Sciences Research Council.

Reid, M., & Reid, S. (2017). Learning to be a Math Teacher: What Knowledge is Essential? International Electronic Journal of Elementary Education, 9(4), 851-872. https://www.generationready.com/white-papers/what-is-effective-teaching-of-mathematics

Rivkin, S. G., Hanushek, E. A., & Kain, J. F. (2005). Teachers, Schools, and Academic Achievement. Econometrica, 73, 417–458. https://onlinelibrary.wiley.com/doi/pdf/10.1111/j.1468-0262.2005.00584

Sarka, S., Lijalem, T., & Shibiru, T. (2017). Improving Academic Achievement through Continuous Assessment Methods: In the Case of Year Two Students of Animal and Range Sciences Department in Wolaita Sodo University, Ethiopia. Journal of Education and Practice, 8(4), 1-5. https://files.eric.ed.gov/fulltext/EJ1133029.pdf

Shepherd, D. L. (2013, June). The impact of teacher subject knowledge on learner performance in South Africa: A within-pupil across-subject approach. In International Workshop on Applied Economics of Education, Cantanzaro (1-32). http://www.iwaee.org/papers%20sito%202013/Shepherd.pdf

Siyepu, S. W., & Vimbelo, S. W. (2021). Student teachers’ mathematical engagement in learning about the total surface areas of geometrical solids. South African Journal of Education, 41(2), 1-13. https://doi.org/10.15700/saje.v41n2a1837

Taylor, N. (2021). The dream of Sisyphus: Mathematics education in South Africa. South African Journal of Childhood Education 11(1), a911. https://doi.org/10.4102/sauce.v11i1.911

Taylor, N., & Robinson, N. (2016). Towards teacher professional knowledge and practise standards in South Africa. A report commissioned by the Centre for Development and Enterprise. https://www.researchgate.net/profile/Nick-Taylor-23/publication/339592811

Tomlinson, C. A. (2020). Fulfilling the promise of the differentiated classroom: Strategies and tools for responsive teaching. Alexandria. Retrieved from http://www.ascd.org/publications

Tymms, P. (2013). Baseline Assessment and Monitoring in Primary schools: Achievement, Attitudes, and Value-added indicators. New York: Routledge. - https://www.api.taylorfrancis.com

Verster, J. (2018). Experiences of learning to become a further education and training mathematics teacher’ case study (Doctoral dissertation, Cape Peninsula University of Technology).

Wayne, A. J., & Youngs, P. (2003). Teacher Characteristics and Student Achievement Gains: A Review. Review of Educational Research, 73, 89–122. https://www.jstor.org/stable/pdf/3516044.pdf

Wilson, M. (2018). Making measurement important for education: The crucial role of classroom assessment. Educational Measurement: Issues and Practice, 37(1), 5-20. https://onlinelibrary.wiley.com/doi/full/10.1111/emip.12188