This research aims to determine the practicality of the problem-posing approach with the STAD setting in mathematics learning. Practicality can be seen based on the implementation of learning by the teacher and student responses. This research is development research that focuses on producing a problem-posing approach design with an STAD setting. The subjects of this research were 8th-grade students. The data collection instruments used in this research were teacher observation sheets and student response questionnaires. Problem posing approach STAD setting used in this learning includes (1) identifying learning objectives and motivating students, (2) forming groups, (3) presenting problems, (4) proposing new problems based on the problems given, (5) guiding students' answers by evaluating the problem-solving process (6) feedback back and, (7) give appreciation. The research results show that the learning design implementation is in the good category, and students' responses to the learning process are in the positive category. Thus, the problem-posing approach with the STAD setting in mathematics learning is in the practical category.

Practicality; Problem Posing; Mathematics; Reasoning.

Abramovich, S., & Cho, E. K. (2008). On Mathematical Problem Posing by Elementary Pre-teachers: The Case of Spreadsheets.

Abu Elwan, R. (2016). Mathematics Problem Posing Skills In Supporting Problem-Solving Skills of Prospective Teachers. The 40th Conference of the International Group for the Psychology of Mathematics eDUCATION, Szeged, Hungary.

Akay, H., & Boz, N. (2010). The Effect of Problem Posing Oriented Analyzes-II Course on the Attitudes toward Mathematics and Mathematics Self-Efficacy of Elementary Prospective Mathematics Teachers. Australian Journal of Teacher Education, 35 (1). https://doi.org/10.14221/ajte.2010v35n1.6

Aprilianti, Y., & Zanthy, LS (2019). Analysis of Middle School Students' Mathematical Reasoning Ability on Quadrilaterals and Triangles. Journal On Education, 01 (02).

Ball, D. L., & Bass, H. (2003). Making mathematics reasonable in school. In J. Kilpatrick, W. G. Martin, & D. Schifter (Eds.), A research companion to principles and standards for school mathematics (pp. 27–44).

Barlow, A. T., & Cates, J. M. (2006). The Impact of Problem Posing on Elementary Teachers' Beliefs About Mathematics and Mathematics Teaching. School Science and Mathematics, 106 (2), 64–73. https://doi.org/10.1111/j.1949-8594.2006.tb18136.x

Baumanns, L., & Rott, B. (2021). The process of problem posing: Development of a descriptive phase model of problem posing. Educational Studies in Mathematics, 110 (2), 251–269. https://doi.org/10.1007/s10649-021-10136-y

Brown, S. I., & Walter, M. I. (2005). The art of problem posing (3rd ed). Lawrence Erlbaum.

Cai, J., Moyer, J.C., Wang, N., Hwang, S., Nie, B., & Garber, T. (2013). Mathematical problem posing as a measure of curricular effect on students' learning. Educational Studies in Mathematics, 83 (1), 57–69. https://doi.org/10.1007/s10649-012-9429-3

Cankoy, O., & Darbaz, S. (2010). Effect Of A Problem Posing Based Problem Solving Instruction On Understanding Problems. Hacettepe Üniversitesi Eğitim Fakültesi Dergisi (HU Journal of Education), 38: 11-24

Chairuddin, C., & Farman, F. (2021). Mathematical Problem Solving Ability in Cooperative Learning Type Student Teams Achievement Division (STAD). JME (Journal of Mathematics Education), 6 (2). https://doi.org/10.31327/jme.v6i2.1669

Christou, C., Mousoulides, N., Pittalis, M., Pitta-Pantazi, D., & Sriraman, B. (2005). An empirical taxonomy of problem posing processes. ZDM , 37 (3), 149–158. https://doi.org/10.1007/s11858-005-0004-6

Chua, PH, & Toh, T.L. (2022). Developing Problem Posing in a Mathematics Classroom. Hiroshima journal of mathematics education, 15 , 99–112.

Farman, F. (2023). Problem Posing dalam Pembelajaran Matematika: Desain Pembelajaran untuk Meningkatkan Kemampuan Penalaran Matematis Siswa. Sidoarjo: Numerasia.

Farman, F., & Chairuddin, C. (2020). Pengembangan Media E-Learning Berbasis Edmodo pada Materi Teorema Pythagoras. AKSIOMA: Jurnal Program Studi Pendidikan Matematika, 9(4), 872–882. https://doi.org/10.24127/ajpm.v9i4.3114

Fisher, D., Kusumah, YS, & Dahlan, JA (2019). Junior High School Students' Mathematical Reasoning Ability Analysis in Systems of Linear Equations and Applications. Journal of Physics: Conference Series , 1315 (1), 012044. https://doi.org/10.1088/1742-6596/1315/1/012044

Gultom, CI, Triyanto, & Dewi Retno Sari Saputro. (2022). Students' Mathematical Reasoning Skills in Solving Mathematical Problems. JPI (Indonesian Education Journal), 11 (3), 542–551. https://doi.org/10.23887/jpiundiksha.v11i3.42073

Harpen, X. Y. V., & Presmeg, N. C. (2013). An investigation of the relationship between students' mathematical problem-posing abilities and their mathematical content knowledge. Educational Studies in Mathematics, 83 (1), 117–132. https://doi.org/10.1007/s10649-012-9456-0

Hasanah, SI, Tafrilyanto, CF, & Aini, Y. (2019). Mathematical Reasoning: The characteristics of students' mathematical abilities in problem solving. Journal of Physics: Conference Series, 1188, 012057. https://doi.org/10.1088/1742-6596/1188/1/012057

Kemdikbud. (2019). Education in Indonesia: Learning from the 2018 PISA Results. Jakarta: Center for Educational Assessment, Research and Education Agency, Ministry of Education and Culture.

Khalil, M. K., & Elkhider, I. A. (2016). Applying learning theories and instructional design models for effective instruction. Advances in Physiology Education, 40 (2), 147–156. https://doi.org/10.1152/advan.00138.2015

Koichu, B., Harel, G., & Manaster, A. (2013). Ways of thinking associated with mathematics teachers' problem posing in the context of division of fractions. Instructional Science, 41 (4), 681–698. https://doi.org/10.1007/s11251-012-9254-1

Lee, Y., Capraro, R.M., & Capraro, M.M. (2018). Mathematics Teachers' Subject Matter Knowledge and Pedagogical Content Knowledge in Problem Posing. International Electronic Journal of Mathematics Education, 13 (2). https://doi.org/10.12973/iejme/2698

Leighton, J.P., & Sternberg, R.J. (Eds.). (2004). The nature of reasoning. Cambridge University Press.

Mahmuzah, R., & Aklimawati. (2017). Improving the Mathematical Reasoning Ability of Middle School Students Through the Problem Posing Approach. Numeracy , 4 (2), 71–79. https://doi.org/10.46244/numeracy.v4i2.266

Mariyam, M., & Wahyuni, R. (2016). Developing Students' Mathematical Reasoning Abilities Through Problem Centered Learning on Opportunity Material (Experimental Study in Class VIII SMP N 6 Singkawang). JPMI (Indonesian Journal of Mathematics Education), 1 (2), 74. https://doi.org/10.26737/jpmi.v1i2.86

McCrory, R., & Stylianides, A. J. (2014). Reasoning-and-proving in mathematics textbooks for prospective elementary teachers. International Journal of Educational Research, 64, 119–131. https://doi.org/10.1016/j.ijer.2013.09.003

Muslimin, M., & Sunardi, S. (2019). Analysis of High School Students' Mathematical Reasoning Ability on Spatial Geometry Material. Kreano, Journal of Creative-Innovative Mathematics, 10 (2), Article 2. https://doi.org/10.15294/kreano.v10i2.18323

NCTM. (2000). Principles and standards for school mathematics . Reston, VA: National Council of Teachers of Mathematics (NCTM).

Novia, CE, Wahyuni, R., & Husna, N. (2018). Effectiveness of the Problem Posing Model to Improve Students' Mathematical Reasoning Ability on Pythagorean Theorem Material for Class VIII SMP Negeri 12 Singkawang. JPMI (Indonesian Journal of Mathematics Education), 2 (2), 78–83. https://doi.org/10.26737/jpmi.v2i2.227

Nurhikmayati, I. (2018). The effectiveness of STAD and TAI problem posing settings on students' reasoning abilities and self-efficacy. THEOREMS (The Original Research of Mathematics) Journal, 2 (2), Article 2. https://doi.org/10.31949/th.v2i2.716

Permana, AS (2011). Problem Posing in Mathematics Learning. Ashidiqpermana . https://ashidiqpermana.wordpress.com/2011/05/17/problem-posing-dalam-pembelajaran-mathematics/

Purnomo, A., Kartono -, & Widowati -. (2015). Problem Posing Learning Model with a Scientific Approach to Improve Problem Solving Ability. Unnes Journal of Mathematics Education Research, 4 (1), Article 1. https://journal.unnes.ac.id/sju/index.php/ujmer/article/view/6907

Singer, F. M., & Voica, C. (2013). A problem-solving conceptual framework and its implications in designing problem-posing tasks. Educational Studies in Mathematics , 83 (1), 9–26. https://doi.org/10.1007/s10649-012-9422-x

Sugandi, AI (2018). Application of the Problem Posing Approach to Improving the Mathematical Reasoning Ability of Middle School Students. PRISMA , 7 (1), Article 1. https://doi.org/10.35194/jp.v7i1.360

Sumarsih, Budiyono, B., & Indriati, D. (2018). Profile of mathematical reasoning ability of 8th grade students seen from communicational ability, basic skills, connections, and logical thinking. Journal of Physics: Conference Series , 1008 , 012078. https://doi.org/10.1088/1742-6596/1008/1/012078

Ünlü, M. (2017). Investigating Mathematics Teachers Candidates' Knowledge about Problem Solving Strategies through Problem Posing. Journal of Education and Practice .

Voica, C., & Pelczer, I. (2010). Problem Posing by Novice and Experts: Comparison Between Students and Teachers. Proceedings of CERME 6 .

Xia, X., Lü, C., & Wang, B. (2008). Research on Mathematics Instruction Experiment Based Problem Posing. Journal of Mathematics Education, 1 (1), 153–163.