Meta-analysis: Effect of problem approach and inquiry approach toward students’ cathematical critical thinking skill over the past 4 years

https://doi.org/10.24042/ajpm.v11i1.4944

Ida Dwijayanti, Aryo Andri Nugroho, Yogi Indah Pratiwi

Abstract


Several studies have been conducted to improve the critical-thinking ability through various models, including problem approach and inquiry approach. The purpose of this study is to analyze which model is the most influential to improve students' critical-thinking skills in the last 4 years of research. This type of research is a mixed-method (quantitative-qualitative which, involved 230 students in the classroom with the problem approach and 263 students with the inquiry approach. The data collection technique used was the documentation of research reports. The data analysis used was meta-analysis through effect size calculation and Z-test. The result shows that the problem approach has a greater influence on students' critical thinking skills than the inquiry approach. This is indicated by the average values of the effect size and Z-test respectively 0.9685 and 83.122 for the problem approach and 0.7207 and 77.162 for the inquiry approach.

 


Keywords


Meta-Analysis; Critical Thinking; Problem Approach; Inquiry Approach

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References


Artigue, M., & Blomhøj, M. (2013). Conceptualizing Inquiry-Based Education in Mathematics. ZDM, 45(6), 797-810.

Bermingham, M. (2015). Clearing up “Critical Thinking”: Its Four Formidable Features. Creative Education, 6(04), 421.

Brown, S. I., & Walter, M. I. (2014). Problem Posing: Reflections and Applications. Psychology Press.

Cheung, A. C., & Slavin, R. E. (2013). The Effectiveness of Educational Technology applications for Enhancing Mathematics Achievement in K-12 Classrooms: A meta-analysis. Educational research review, 9, 88-113.

Depdiknas. (2013). Kurikulum 2013. Depdiknas. Jakarta.

Dwijayanti, I., Budayasa, I. K., & Siswono, T. Y. E. (2019). Students' Gestures in Understanding Algebraic Concepts. Beta: Jurnal Tadris Matematika, 12(2), 133-143.

Dwijayanti, I. (2018). Paradigma Pendidikan, Teori Belajar serta Aplikasi dalam Strategi Pembelajaran Matematika. Semarang: Universitas PGRI Press.

Dwijayanti, I. (2016). Pengembangan Perangkat Pembelajaran Matematika Berbasis Pendidikan Multikultural Menggunakan Socio Humanism. JIPMat, 1(1).

Fauziah, Resti, Ade Gafar Abdullah, and Dadang Lukman Hakim. 2013. “Pembelajaran Saintifik Elektronika Dasar Berorientasi Pembelajaran Berbasis Masalah.” Innovation of Vocational Technology Education 9(2).

Fritz, C. O., Morris, P. E., & Richler, J. J. (2012). Effect Size Estimates: Current Use, Calculations, and Interpretation. Journal of experimental psychology: General, 141(1), 2.

Goodchild, S., Fuglestad, A. B., & Jaworski, B. (2013). Critical Alignment in Inquiry-based Practice in Developing Mathematics Teaching. Educational Studies in Mathematics, 84(3), 393-412.

Heo, H. J., & CHun, B. A. (2018). Improving the Higher Order Thinking Skills using Flipped Learning: Focused on the in-Class Activities With Problem Posing and Solving. ASIA LIFE SCIENCES Supplement, 15(4), 2187-2199.

Herman, Tatang. 2007. “Pembelajaran Berbasis Masalah untuk Meningkatkan Kemampuan Berpikir Matematis Tingkat Tinggi Siswa Sekolah Menengah Pertama.” Educationist 1(1):47–56.

Hipziyah, S. (2014). Penerapan Model Pembelajaran Problem Solving Untuk Meningkatkan Kemampuan Berpikir Kritis Matematis Siswa. Universitas Islam Negeri Syarif Hidayatullah Jakarta.

Hudha, M. N., & Batlolona, J. R. (2017). How are the Physics Critical Thinking Skills of the Students Taught by Using Inquiry-Discovery through Empirical and Theorethical Overview?. Eurasia Journal of Mathematics, Science and Technology Education, 14(2), 691-697.

Johnson, E. B. (2009). Contextual Teaching & Learning. Bandung: Mizan Learning Center.

Kazak, S., Wegerif, R., & Fujita, T. (2015). The Importance of Dialogic Processes to Conceptual Development in Mathematics. Educational Studies in Mathematics, 90 (2), 105-120.

Kivunja, C. (2015). Using de Bono’s Six Thinking Hats Model to Teach Critical Thinking and Problem Solving Skills Essential for Success in The 21st Century Economy. Creative Education, 6(03), 380.

Kul, Ü., Çelik, S., & Aksu, Z. (2018). The Impact of Educational Material Use on Mathematics Achievement: A Meta-Analysis. International Journal of Instruction, 11(4), 303-324.

Means, B., at.al. 2010. Evaluation of Evidence-Based Practies in Online Learning: A Meta Analysis and Review of Online Learning Studies. Washington DC: U.S Department Education.

Nizaruddin, N., & Dwijayanti, I. (2012). Pengembangan Perangkat Pembelajaran Matematika Humanistik Berideologi Pancasila Berbasis konstruktivis menggunakan ICT di SMP.

Nugroho, A. A., Dwijayanti, I., & Atmoko, P. Y. (2020). Pengaruh Model Pembelajaran Berbasis Penemuan dan Lingkungan terhadap Kemampuan Pemecahan Masalah Matematika Melalui Meta Analisis. AKSIOMA: Jurnal Program Studi Pendidikan Matematika, 9(1).

Nurdyansyah, Nurdyansyah. 2018. “Model Pembelajaran Berbasis Masalah Pada Pelajaran IPA Materi Komponen Ekosistem.” Universitas Muhammadiyah Sidoarjo.

Octaria, E. A. (2018). Pengaruh Model Process Oriented Guided Inquiry Learning (Pogil) Terhadap Kemampuan Berpikir Kritis Matematis. Universitas Islam Negeri (UIN) Syarif Hidayatullah Jakarta.

Peng, P., Namkung, J., Barnes, M., & Sun, C. (2016). A Meta-Analysis of Mathematics and Working Memory: Moderating Effects of Working Memory Domain, Type of Mathematics Skill, and Sample Characteristics. Journal of Educational Psychology, 108(4), 455.

Permana, Yanto, and Utari Sumarmo. 2007. “Mengembangkan Kemampuan Penalaran Dan Koneksi Matematik Siswa SMA Melalui Pembelajaran Berbasis Masalah.” Educationist 1(2):116–123.

Robi, A. A. (2018). The Analysis of Critical Thinking Skill of Version P21 in Solving the Problems of Two Dimensional Arithmetic Derived from the Implementation of Guided Discovery Learning. International Journal of Scientific Research and Management, 6(01), M-2018.

Salazar, R. F., Dotson,N. M., Bressler,S. L., Gray,C. M. (2012).Content-Specific Fronto-Parietal Synchronization During Visual Working Memory. Science, 338(6110), 1097–1100

Shannon, S. V. (2008). Using Metacognitive Strategies and Learning Styles to Create Self-Directed Learners. Institute for Learning Styles Journal. 1 (1): 14-28.

Suarsana, I., Lestari, I. A. P. D., & Mertasari, N. M. S. (2019). The Effect of Online Problem Posing on Students' Problem-Solving Ability in Mathematics. International Journal of Instruction, 12(1), 809-820.

Yousefi, S., & Mohammadi, M. (2016). Critical Thinking and Reading Comprehension Among Postgraduate Students: the Case of Gender and Language Proficiency Level. Journal of Language Teaching and Research, 7(4), 802-807.

Zakaria, G. A. N., Mahalle, S., Bakar, Z. A., & Nawi, A. (2015). Collaborative Learning in the Teaching of Usul Fiqh (Islamic Jurisprudence) at the Pre-University Level in Brunei Darussalam. Mediterranean Journal of Social Sciences, 6(3 S1), 158.

Zare, P., & Othman, M. (2015). Students' Perceptions Toward Using Classroom Debate to Develop Critical Thinking and Oral Communication Ability. Asian Social Science, 11(9), 158.




DOI: https://doi.org/10.24042/ajpm.v11i1.4944

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Al-Jabar : Jurnal Pendidikan Matematika is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.