Examining Mathematical Problem-Solving Beliefs among Rwandan Secondary School Teachers
Abstract
https://doi.org/10.26803/ijlter.20.7.13
Keywords
Full Text:
PDFReferences
Arikan, E. E. (2016). Prospective Teachers ’ Beliefs a bout Problem Solving in Multiple Ways. Universal Journal of Educational Research, 4(7), 1727–1733. https://doi.org/10.13189/ujer.2016.040727
Barak, M. (2013). Impacts of learning inventive problem-solving principles: Students’ transition from systematic searching to heuristic problem solving. Instructional Science, 41(4), 657–679.
Beswick, K. (2012). Teachers’ beliefs about school mathematics and mathematicians’ mathematics and their relationship to practice. Educational Studies in Mathematics, 79(1), 127–147.
Beswick, K. (2019). The role of knowledge and beliefs in helping learners to progress their mathematical understanding. Journal of Mathematics Teacher Education, 22(2), 125–128. https://doi.org/10.1007/s10857-019-09432-5
Bloom, B. et al. (1972). Taxonomy of Educational Objektives. The Classification of Educational Goals. Handbook I: The Cognitive Domain. D. Mckay.
Bobis, J., Way, J., Anderson, J., & Martin, A. J. (2015). Challenging teacher beliefs about student engagement in mathematics. https://doi.org/10.1007/s10857-015-9300-4
Cheng, S., She, H., & Huang, L. (2018). The Impact of Problem-Solving Instruction on Middle School Students ’ Physical Science Learning : Interplays of Knowledge , Reasoning , and Problem Solving. EURASIA Journal of Mathematics, Science and Technology Education, 14(3), 731–743.
Cresswell, J. W. (2014). Research Design: Qualitative, Quantitative and Mixed Methods Appoaches. In Sage Publications (4th editio). Sage Publications. https://doi.org/10.1063/1.1150549
Emenaker, C. (1996). A Problem-Solving Based Mathematics Course and Elementary Teachers’ Beliefs. School Science and Mathematics, 96(2), 75–84.
Ernest, P. (1989). The impact of beliefs on the teaching of mathematics. In P. Ernest (Ed.), Mathematics teaching: The state of the art (pp. 249–253).
Fox, S. (1997). Situated learning theory versus traditional cognitive learning theory: Why management education should not ignore management learning. Systems Practice, 10(6), 727–747. https://doi.org/10.1007/BF02557922
Hart, L. C. (2002). Preservice Teachers’ Beliefs and Practice After Participating in an Integrated Content/Methods Course. School Science and Mathematics, 102(1), 4–14.
Hwang, J., & Riccomini, P. J. (2016). Enhancing Mathematical Problem Solving for Secondary Students with or at Risk of Learning Disabilities: A Literature Review. Learning Disabilities Research and Practice. https://doi.org/10.1111/ldrp.12105
Kloosterman, P., & Stage, F. K. (1992). Measuring Beliefs About Mathematical Problem Solving. School Scienca and Mathematics, 92(3), 109–115.
Marshman, M., & Goos, M. (2018). The Beliefs about Mathematics , its Teaching and Learning of those Involved in Secondary Mathematics Pre-Service Teacher Education. Proceedings of the 41st Annual Conference of the Mathematics Education Research Group of Australasia, 519–526.
Memnun, D. S., Hart, L. C., & Akkaya, R. (2012). A Research on the Mathematical Problem Solving Beliefs of Mathematics , Science and Elementary Pre-Service Teachers in Turkey in terms of Different Variables. International Journal of Humanities and Social Science, 2(24), 172–184.
Mukuka, A., Balimuttajjo, S., & Mutarutinya, V. (2020). Exploring Students’ Algebraic Reasoning on Quadratic Equations: Implications for School-Based Assessment. In K. K. Mashood, T. Sengupta, C. Ursekar, H. Raval, & S. Dutta (Eds.), Proceedings of the epiSTEME8 â Iâ nâ tâ eâ râ nâ aâ tâ iâ oâ nâ aâ lâ â Câ oâ nâ fâ eâ râ eâ nâ câ eâ â tâ oâ â râ eâ vâ iâ eâ wâ â râ eâ sâ eâ aâ râ câ hâ â iâ nâ â Sâ ciâ eâ nâ câ eâ , â Tâ eâ câ hâ nâ oâ lâ oâ gâ yâ â aâ nâ dâ â Mâ aâ tâ hâ eâ mâ aâ tiâ câ sâ â Eâ dâ uâ câ aâ tâ iâ on (pp. 130–138). Homi Bhabha Centre for Science Education.
Ndihokubwayo, K., Ndayambaje, I., & Uwamahoro, J. (2020). Analysis of Lesson Plans from Rwandan Physics Teachers. International Journal of Learning, Teaching and Educational Research, 19(12), 1–29. https://doi.org/10.26803/ijlter.19.12.1
Nsengimana, T., Mugabo, L. R., & Hiroaki, O. (2020). Reflection on science competence-based curriculum implementation in Sub-Saharan African countries. International Journal of Science Education, Part B, 0(0), 1–14.
Orodho, A., Nzabarirwa, W., Odundo, P., Waweru, P. N., & Ndayambaje, I. (2016). Quantitative and Qualitative Research Methods. A Step by Step Guide to Scholarly Excellence. Kanezja Publishers & Entreprises.
Pajares, M. F. (1992). Teachers’ Beliefs and Educational Research: Cleaning Up a Messy Construct. Review of Educational Research, 62(3), 307–332.
Palraj, S., Dewitt, D., & Alias, N. (2017). Teachers Beliefs in Problem Solving in Rural Malaysian Secondary Schools. Malaysian Online Journal of Educational Technology, 5(4), 45–57.
Polly, D., Mcgee, J. R., Wang, C., Lambert, G., Pugalee, D. K., & Johnson, S. (2013). The Association between Teachers ’ Beliefs , Enacted Practices , and Student Learning in Mathematics. 22(2), 11–30.
Raymond, A. M. (1997). Inconsistency between a beginning elementary school teacher’s mathematics beliefs and teaching practice. Journal for Research in Mathematics Education, 28(5), 550–576.
REB. (2019). Subsidiary Mathematics Senior 6 Teacher’s Guide. Rwanda Education Board.
Ren, L., & Smith, W. M. (2017). Teacher characteristics and contextual factors : links to early primary teachers ’ mathematical beliefs and attitudes. Journal of Mathematics Teacher Education, 21(4), 321–350.
Roesken, B., Pepin, B., & Toerner, G. (2011). Beliefs and beyond: Affect and the teaching and learning of mathematics. ZDM - International Journal on Mathematics Education, 43(4), 451–455.
Rwanda Basic Education Board [REB]. (2015). Competency-based curriculum-summary of curriculum framework pre-primary to upper secondary.
Siswono, Kohar, & Hartono. (2017). Secondary Teachers ’ Mathematics-related Beliefs and Knowledge about Mathematical Problem-solving. Journal of Physics: Conference Series, 1–7.
Siswono, Tatag Y.E., Kohar, A. W., Rosyidi, A. H., & Hartono, S. (2017). Primary school teachers’ beliefs and knowledge about mathematical problem-solving and their performance in a problem-solving task. World Transactions on Engineering and Technology Education, 15(2), 126–131.
Siswono, Tatag Yuli Eko, Hartono, S., Kohar, A. W., Karim, & Kurniawan. (2019). Instrumentalist Teachers ’ Beliefs in Practicing Mathematical Problem Solving. Universal Journal of Educational Research 7(12):, 7(12), 2851–2856.
Ukobizaba, F., Ndihokubwayo, K., Mukuka, A., & Uwamahoro, J. (2019). Insights of teachers and students on mathematics teaching and learning in selected Rwandan secondary schools. African Journal of Educational Studies in Mathematics and Sciences, 15(2), 93–107.
Ukobizaba, F., Ndihokubwayo, K., & Uworwabayeho, A. (2020). Teachers ’ Behaviours Towards Vital Interactions that Attract Students ’ Interest to Learn Mathematics and Career Development. African Journal of Educational Studies in Mathematics and Sciences, 16(1), 85–94.
Xenofontos, C., & Andrews, P. (2012). Prospective teachers’ beliefs about problem-solving: Cypriot and English cultural constructions. Research in Mathematics Education, 14(1), 69–85. https://doi.org/10.1080/14794802.2012.657439
Zakaria, E., & Maat, siti M. (2012). Mathematics Teachers ’ Beliefs and Teaching Practices. Journal of Mathematics and Statistics, 8(2), 187–190.
Zollman, A., & Mason, E. (1992). The Standards’ Beliefs Instrument (SBI): Teachers’ Beliefs About the NCTM Standards. School Science and Mathematics, 92(7), 359–364.
Refbacks
- There are currently no refbacks.
e-ISSN: 1694-2116
p-ISSN: 1694-2493