This present study aims to examine the effect of GeoGebra-assisted interactive learning on student mathematical achievement of coordinate system. The study applied a quasi-experimental method that included 41 fifth grade students from a private Islamic school in Pekanbaru, Riau. The students were randomized into an experimental group (n=21) that received GeoGebra-assisted interactive learning and a control group (n=20) that received traditional teaching approach. Student mathematical achievement was measured using items of coordinate system developed by the researchers, and the data gathering in this study was analyzed using nonparametric statistical analysis. The findings indicated that there was significant statistical difference in student mathematical achievement of coordinate system between the experimental and control group (Asymp. Sig. (2-tailed) = 0.000 < 0.05)). The study concluded that the instruction based on GeoGebra-assisted interactive learning had a statistically significant positive effect on improving student mathematical achievement of coordinate system.

Aktümen, M., & Kabaca, T. (2012). Exploring the Mathematical Model of the Thumbaround Motion by GeoGebra. Technology, Knowledge and Learning, 17(3), 109–114. https://doi.org/10.1007/s10758-012-9194-5

Aleven, V., Stahl, E., Schworm, S., Fischer, F., & Wallace, R. (2003). Help Seeking and Help Design in Interactive Learning Environments. Review of Educational Research, 73(3), 277–320. https://doi.org/10.3102/00346543073003277

Alkhateeb, M. A., & Al-Duwairi, A. M. (2019). The Effect of Using Mobile Applications (GeoGebra and Sketchpad) on the Students’ Achievement. International Electronic Journal of Mathematics Education, 14(3). https://doi.org/10.29333/iejme/5754

Altay, M. K., Yalvaç, B., & Yeltekin, E. (2017). 8th grade student’s skill of connecting mathematics to real life. Journal of Education and Training Studies, 5(10), 158–166. https://doi.org/10.11114/jets.v5i10.2614

Azizah, A. N., Kusmayadi, T. A., & Fitriana, L. (2021). The Effectiveness of Software GeoGebra to Improve Visual Representation Ability. Proceeding of Annual Engineering and Vocational Education Conference, 1808(1), 1–6. https://doi.org/10.1088/1742-6596/1808/1/012059

Barker, P. (1994). Designing Interactive Learning. In T. de Jong & L. Sarti (Eds.), Design and Production of Multimedia and Simulation-based Learning Material (pp. 1–30). Springer Netherlands. https://doi.org/10.1007/978-94-011-0942-0_1

Baye, M. G. (2021). Implementing GeoGebra integrated with multi-teaching approaches guided by the APOS theory to enhance students’ conceptual understanding of limit in Ethiopian Universities. Heliyon, 7(5). https://doi.org/10.1016/j.heliyon.2021.e07012

Begum, R., & Lakshmi, R. N. D. (2023). ICT-Based Collaborative Learning Approach: Enhancing Students’ Language Skills. In T. Kumar, A., Ghinea, G., Merugu, S., Hashimoto (Ed.), Proceedings of the International Conference on Cognitive and Intelligent Computing (pp. 11–18). Springer. https://doi.org/10.1007/978-981-19-2358-6_2

Boakes, N. J. (2009). Origami Instruction in the Middle School Mathematics Classroom: Its Impact on Spatial Visualization and Geometry Knowledge of Students. RMLE Online, 32(7), 1–12. https://doi.org/10.1080/19404476.2009.11462060

Bozkurt, G., & Ruthven, K. (2017). Classroom-based professional expertise: a mathematics teacher’s practice with technology. Educational Studies in Mathematics, 94(3), 309–328. https://doi.org/10.1007/s10649-016-9732-5

Bulut, M., Akçakın, H. Ü., Kaya, G., & Akçakın, V. (2015). The effects of geogebra on third grade primary students’ academic achievement in fractions. Mathematics Education, 11(2), 327–335. https://doi.org/10.12973/iser.2016.2109a

Creswell, J. W., & Creswell, J. D. (2017). Research design: Qualitative, quantitative, and mixed methods approaches. Sage Publications.

Dahal, N., Pant, B. P., Shrestha, I. M., & Manandhar, N. K. (2022). Use of GeoGebra in Teaching and Learning Geometric Transformation in School Mathematics. International Journal of Interactive Mobile Technologies (IJIM), 16(08), 65–78. https://doi.org/10.3991/ijim.v16i08.29575

Dahal, N., Shrestha, D., & Pant, B. P. (2019). Integration of GeoGebra in teaching and learning geometric transformation. Journal of Mathematics and Statistical Science, 5, 323–332.

Descartes, R., & Cress, D. A. (1998). Discourse on method. Hackett Publishing.

Dikovic, L. (2009). Implementing dynamic mathematics resources with geogebra at the college level. International Journal of Emerging Technologies in Learning, 4(3), 51–54. https://doi.org/10.3991/ijet.v4i3.784

Henkel, C. K. (2010). Creating interactive learning objects with PowerPoint: Primer for lecture on the autonomic nervous system. Medical Teacher, 32(8), 355–359. https://doi.org/10.3109/0142159X.2010.490709

Hernández, A., Perdomo-Díaz, J., & Camacho-Machín, M. (2020). Mathematical understanding in problem solving with GeoGebra: a case study in initial teacher education. International Journal of Mathematical Education in Science and Technology, 51(2), 208–223. https://doi.org/10.1080/0020739X.2019.1587022

Hohenwarter, M. (2007). Dynamic mathematics with GeoGebra. Journal of Online Mathematics and Its Applications. https://api.elsevier.com/content/abstract/scopus_id/38649141181

Hohenwarter, Markus, & Fuchs, K. (2005). Combination of dynamic geometry, algebra and calculus in the software system GeoGebra. In Computer Algebra Systems and Dynamic Geometry Systems in Mathematics Teaching (Sarvari, Cs. Hrsg.) (pp. 128–133).

Iranti, A. D., Asih, S. R., Putra, Z. H., & Alim, J. A. (2023). Peningkatan pengetahuan tentang garis bilangan melalui permainan loncat garis. Indonesian Journal of Science, Technology, Engineering, Art, and Mathematics Education, 2(1), 25 - 33.

Kabaca, T. (2013). Using dynamic mathematics software to teach one-variable inequalities by the view of semiotic registers. Eurasia Journal of Mathematics, Science and Technology Education, 9(1), 73–81. https://doi.org/10.12973/eurasia.2013.917a

Kemdikbud. (2013). Kurikulum 2013: Kompetensi dasar sekolah dasar (SD)/ Madrasyah Ibtidaiyah (MI).

Kllogjeri, P., & Shyti, B. (2010). GeoGebra: a global platform for teaching and learning math together and using the synergy of mathematicians. International Journal of Teaching and Case Studies, 2(3/4), 225–236. https://doi.org/10.1504/IJTCS.2010.033318

Levenberg, I. (2015). Information on Coordinate System as a Tool for Developing Mathematical Thinking. International Journal of Contemporary Educational Research, 2(1), 46–53.

Majid, A. (2014). Strategi pembelajaran. PT Remaja Rosdakarya.

Mitrawilda, M. (2018). Penerapan strategi pembelajaran interaktif dalam meningkatkan hasil belajar siswa pada mata pelajaran fisika kelas XI SMA 1 Sendana. Universitas Muhammadiyah Makasar.

Morcom, V. (2022). Social practices and relational agency to support student collaboration: A sociocultural perspective. Issues in Educational Research, 32(4), 1530–1547. http://www.iier.org.au/iier32/morcom.pdf

Palupi, E. L. W. (2013). Understanding the coordibate systems [Universitas Sriwijaya]. http://www.fisme.science.uu.nl/en/impome/theses_group_2012/thesis_Eva.pdf

Palupi, E. L. W., Zulkadri, Z., Darmawijoyo, D., & Abels, M. J. (2013). How can the students of 5th grade make up a system to locate an object: Level of child’s development thinking of locate a point. Proceedingi of 1st South East Asia Design Research, 104–113.

Putra, Z. H., Hermita, N., Alim, J. A., Dahnilsyah, D., & Hidayat, R. (2021). GeoGebra integration in elementary initial teacher training: The case of 3-D shapes. International Journal of Interactive Mobile Technologies, 15(19), 21–32. https://doi.org/10.3991/ijim.v15i19.23773

Putra, Z. H., Hermita, N., Yuliani, S., & Fatmawilda, F. (2022). The effects of gender, study major, and year of study on prospective teachers’ mathematical, didactic, and technological knowledge. Journal of Teaching and Learning in Elementary Education, 5(2), 243- 253.

Saha, Royati A.S., Ayub, A.F.M., & Tarmizi, R.A. (2010). The Effects of GeoGebra on Mathematics Achievement: Enlightening Coordinate Geometry Learning. International Conference on Mathematics Education Research, 8(2010), 686-693. https://doi:10.1016/j.sbspro.2010.12.095

Solvang, L., & Haglund, J. (2022). Learning with Friction—Students’ Gestures and Enactment in Relation to a GeoGebra Simulation. Research in Science Education, 52(6), 1659–1675. https://doi.org/10.1007/s11165-021-10017-7

Sugiyono. (2019). Metode Penelitian Pendidikan (Kuantitatif, Kualitatif, Kombinasi, R&D dan Penelitian Pendidikan). Alfabeta.

Takači, D., Stankov, G., & Milanovic, I. (2015). Efficiency of learning environment using GeoGebra when calculus contents are learned in collaborative groups. Computers and Education, 82, 421–431. https://doi.org/10.1016/j.compedu.2014.12.002

Tanga, M., & Luggya, S. (2022). Teaching and Learning in a South African University: Are Peer Facilitators’ Strategies Succeeding? Journal of Academic Ethics, 20(1), 3–22. https://doi.org/10.1007/s10805-020-09361-6

Tatar, E., & Zengin, Y. (2016). Conceptual Understanding of Definite Integral with GeoGebra. Computers in the Schools, 33(2), 120–132. https://doi.org/10.1080/07380569.2016.1177480

Wijaya, P. B., Candiasa, M., & Suryawan, P. (2018). Pengembangan Media Pembelajaran Sistem Koordinat Berbasis Lectora Inspire dengan Pendekatan Saintifik Untuk Siswa SMP. Edumatica, 8(2), 9–22. https://doi.org/https://doi.org/10.22437/edumatica.v8i2.5247

Winanda, W., Putra, Z. H., Zufriady, Z. (2020). Pengaruh model pembelajaran kooperatif dengan bantuan media tulang napier terhadap hasil belajar matematika siswa kelas III SD IT Diniyah Pekanbaru. Tunjuk Ajar: Jurnal Penelitian Ilmu Pendidikan, 3(2), 250 – 260. http://dx.doi.org/10.31258/jta.v3i2.250-260

Yilmaz, R., & Argun, Z. (2017). Role of Visualization in Mathematical Abstraction: The Case of Congruence Concept. International Journal of Education in Mathematics, Science and Technology, 6(1), 41–57. https://doi.org/10.18404/ijemst.328337