Abstract: This study aims to analyze the significant influence of the Problem-Based Learning (PBL) model on students' mathematical problem-solving abilities. This meta-analysis includes ten scientific articles comparing the PBL model with conventional teaching methods. The article selection process followed the PRISMA 2020 guidelines to ensure transparency and rigor. Data were analyzed using the Mann-Whitney U test due to the non-normal distribution, and Spearman’s Rank Correlation was used to assess the strength of the relationship between PBL and students' problem-solving abilities. The results indicate that the PBL model has a significant and positive impact on students' mathematical problem-solving abilities compared to conventional methods, with a large effect size of r = 0.642. The Spearman’s Rank Correlation revealed a strong positive relationship (r_s = 0.782) between the implementation of PBL and the improvement in problem-solving skills. These findings are supported by several factors contributing to PBL's success, including active student engagement, effective teacher facilitation, the use of real-world contexts, and a supportive classroom environment. This study concludes that the PBL model is a highly effective pedagogical approach for enhancing mathematical problem-solving skills. Considering the significant positive effects, this study recommends the widespread adoption of PBL in educational environments to improve students' critical thinking and problem-solving abilities. Further research is needed to explore the long-term impacts of PBL and its application in different educational contexts.        

 

Keywords: problem-based learning, mathematical problem-solving, meta-analysis, mann-whitney u test, spearman’s rank correlation.



DOI: http://dx.doi.org/10.23960/jpmipa/v25i2.pp864-877

Ali Abd Al-Hameed, K. (2022). Spearman's correlation coefficient in statistical analysis. International Journal of Nonlinear Analysis and Applications, 13(1), 3249-3255.

Anam, K., Sudarwo, R., & Wiradharma, G. (2020). Application of the Problem Based Learning model to communication skills and mathematical problem-solving skills in junior high school students. JTAM (Jurnal Teori Dan Aplikasi Matematika), 4(2), 155-165.

Boye, E. S., & Agyei, D. D. (2023). Effectiveness of problem-based learning strategy in improving teaching and learning of mathematics for pre-service teachers in Ghana. Social Sciences & Humanities Open, 7(1).

Cohen, J. (2013). Statistical power analysis for the behavioral sciences (2nd ed.). Routledge.

Dochy, F., Segers, M., Van den Bossche, P., & Gijbels, D. (2003). Effects of problem-based learning: A meta-analysis. Learning and Instruction, 13(5), 533-568.

Febrianto, T., Ngabekti, S., & Saptono, S. (2021). The effectiveness of Schoology-assisted PBL-STEM to improve critical thinking ability of junior high school students. Journal of Innovative Science Education, 10(2).

Field, A. (2018). Discovering Statistic Using IBM SPSS Statistic (5th ed). Los Angeles, CA: Sage.

Gravemeijer, K., Stephan, M., Julie, C., Lin, F. L., & Ohtani, M. (2017). What mathematics education may prepare students for the society of the future? International Journal of Science and Mathematics Education, 15(1), 105-123.

Hauke, J., & Kossowski, T. (2011). Comparison of values of Pearson's and Spearman's correlation coefficients on the same sets of data. Quaestiones Geographicae, 30(2), 87-93.

Havlicek, L. L., & Peterson, N. L. (1974). Robustness of the t test: A guide for researchers on the effect of violations of assumptions. Psychological Reports, 34, 1095-1114.

Hidajat, F. A. (2023). A comparison between problem-based conventional learning and creative problem-based learning on self-regulation skills: Experimental study. Heliyon, 9(9).

Hutauruk, A. J. B., & Priatna, N. (2017). Mathematical resilience of mathematics education students. Journal of Physics: Conference Series, 895(1).

Irvan, I., & Muslihuddin, R. (2020). The development of teaching materials with problem-based learning on the mathematical statistics subject to improve students’ critical thinking ability. Indonesian Journal of Education and Mathematical Science, 2(1), 1-6.

Juandi, D., & Tamur, M. (2021). Review of problem-based learning trends in 2010-2020: A meta-analysis study of the effect of problem-based learning in enhancing mathematical problem-solving skills of Indonesian students. Journal of Physics: Conference Series, 1722(1).

Kolb, D. A. (2014). Experiential learning: Experience as the source of learning and development. FT press.

Lonergan, R., Cumming, T. M., & O'Neill, S. C. (2022). Exploring the efficacy of problem-based learning in diverse secondary school classrooms: Characteristics and goals of problem-based learning. International Journal of Educational Research, 112, 101945.

Loyens, S. M. M., Kirschner, P. A., & Paas, F. (2011). Problem-based learning. In R. E. Mayer & P. A. Alexander (Eds.), Handbook of research on learning and instruction (pp. 361-381). Routledge.

Marhami, M., Juandi, D., & Dasari, D. (2024). Indonesian students’ numeracy skills based on PISA mathematical problems in secondary school: A meta-synthesis. Jurnal Pendidikan MIPA, 25(1), 14-26.

Musna, R. R., Juandi, D., & Jupri, A. (2021, May). A meta-analysis study of the effect of Problem-Based Learning model on students’ mathematical problem-solving skills. Journal of Physics: Conference Series, 1882(1), 012090.

OECD. (2022). PISA 2022 results: Mathematics, reading, and science assessment. OECD Publishing.

Page, M. J., McKenzie, J. E., Bossuyt, P. M., Boutron, I., Hoffmann, T. C., Mulrow, C. D., & Moher, D. (2021). The PRISMA 2020 statement: An updated guideline for reporting systematic reviews. BMJ, 372.

Roos, H. (2019). Inclusion in mathematics education: An ideology, a way of teaching, or both? Educational Studies in Mathematics, 100(1), 25-41.

Saad, A., & Zainudin, S. (2022). A review of project-based learning (PBL) and computational thinking (CT) in teaching and learning. Learning and Motivation, 78, 101802

Savery, J. R. (2015). Overview of problem-based learning: Definitions and distinctions. Essential readings in problem-based learning: Exploring and extending the legacy of Howard S. Barrows, 9(2), 5-15.

Setiawan, A. A., Muhtadi, A., & Hukom, J. (2022). Blended learning and student mathematics ability in Indonesia: A meta-analysis study. International Journal of Instruction, 15(2), 905-916.

Siagian, Q. A., Darhim, D., Juandi, D., & Khairunnisa, K. (2023). The effect of problem-based learning (PBL) on improving students' mathematical ability: Meta-analysis. Jurnal Cendekia: Jurnal Pendidikan Matematika, 7(3), 2252-2264.

Simanjuntak, Y. I. W., & Purwaningsih, D. (2024). STEM integrated problem-based learning: The implementation and roles in science learning. Jurnal Pendidikan MIPA, 25(2), 686-700.

Suparman, S., Yohannes, Y., & Arifin, N. (2021). Enhancing mathematical problem-solving skills of Indonesian junior high school students through problem-based learning: A systematic review and meta-analysis. Al-Jabar: Jurnal Pendidikan Matematika, 12(1), 1-16.

Suryani, M., Jufri, L. H., & Putri, T. A. (2020). Analisis kemampuan pemecahan masalah siswa berdasarkan kemampuan awal matematika [Analysis of students' problem solving abilities based on initial mathematical abilities]. Mosharafa: Jurnal Pendidikan Matematika, 9(1), 119-130.

Tomczak, M., & Tomczak, E. (2014). The need to report effect size estimates revisited: An overview of some recommended measures of effect size. Trends in Sport Science, 1(21), 19-25.

Walsh, D., & Downe, S. (2005). Meta-synthesis method for qualitative research: A literature review. Journal of Advanced Nursing, 50(2), 204-211.