Enhancement of students’ mathematical connection through Knisley mathematics learning model assisted by GeoGebra

Authors

  • Atina Rahmah Ichtiari Universitas Pasundan, West Java
  • Dahlia Fisher Universitas Pasundan, West Java
  • Taufik Rahman Universitas Pasundan, West Java
  • Siti Ainor Mohd Yatim Universiti Sains Malaysia, Penang

DOI:

https://doi.org/10.29408/jel.v10i1.19786

Keywords:

GeoGebra, Knisley's mathematics learning model, mathematical connections

Abstract

This study aims to determine whether the increase in the mathematical connections of students who receive the Knisley mathematics learning model is higher than students who receive conventional learning models. The method used in this study was a quasi-experimental design with a nonequivalent control group. This study involved two classes: an experimental class and a control class. Students in the experimental class learned with the Knisley mathematics learning model assisted by GeoGebra, while students in the control class received learning with conventional learning models. This research involved 50 students in class. The study was conducted with the object of this research, which is the ninth grader students in one of the public junior high schools in Bandung. The results showed that the increase in the mathematical connections of students who received the Knisley mathematics learning model was more elevated than that of students who received conventional learning. Knisley's mathematics learning model provides space for students to build their knowledge and can facilitate students in fulfilling mathematical connection indicators. Learning using GeoGebra can increase student enthusiasm. Student activeness in learning can be increased by applying the GeoGebra-assisted Knisley mathematics learning model.

References

Anaguna, N., & Suhendra, S. (2019). Students’ learning achievement using knisley learning model with brainstorming method. Journal of Physics: Conference Series, 1157(2), 022129. https://doi.org/10.1088/1742-6596/1157/2/022129

Andriani, D., & Aripin, U. (2019). Analisis kemampuan koneksi matematik dan kepercayaan diri siswa SMP [Analysis mathematical connection ability and self-confidence of junior high school students]. JPMI (Jurnal Pembelajaran Matematika Inovatif), 2(1), 25–32. https://doi.org/10.22460/jpmi.v2i1.p25-32

Apriatni, S., & Nindiasari, H. (2022). Efektivitas model pembelajaran knisley terhadap kemampuan matematis peserta didik: Systematic literature review [The effectiveness of the knisley learning model on students' mathematical abilities: Sistematic literature review]. Jurnal Cendekia : Jurnal Pendidikan Matematika, 6(3), 3059–3077. https://doi.org/10.31004/cendekia.v6i3.1541

Agistnie, R., Lukman, H. S., & Agustiani, N. (2022). Model pembelajaran kolb-knisley berbantuan geogebra terhadap kemampuan penalaran siswa dalam menyelesaikan soal setara PISA [Geogebra-assisted kolb-knisley learning model on students' reasoning ability in solving PISA equivalent questions]. Prisma, 11(2), 395. https://doi.org/10.35194/jp.v11i2.2414

Babbie, E. (2021). The practice of social research (15th ed.). Cengage Learning, Inc.

Campbell, D. T., & Stanley, J. C. (1963). Experimental and quasi-experimental design for research. Houghton Mifflin Company.

Crawford, A., Saul, W., Mathews, S. R., & Makinster, J. (2005). Teaching and learning strategies for the thinking classroom. The International Debate Education Association.

Darwanto. (2019). Hard skills matematik siswa [Students' mathematical hard skills]. Eksponen, 9(1), 21–27. https://doi.org/10.47637/eksponen.v9i1.129

Dedy, E., Mulyana, E., & Sudihartinih, E. (2012). Pengembangan bahan ajar kalkulus vektor berdasarkan model pembelajaran matematika knisley sebagai upaya meningkatkan kompetensi matematika mahasiswa [Development of vector calculus teaching materials based on the knisley mathematical learning model as an effort to improve students' mathematical competence]. Pythagoras: Jurnal Matematika dan Pendidikan Matematika, 7(1), 101-112.

Fauzy, A., Putra, H. D., & Hendriana, H. (2023). Pembelajaran materi bangun ruang sisi datar menggunakan model matematika knisley dan aplikasi geometryx [Learning materials for building flat-sided spaces using the knisley mathematical model and the geometryx application]. Mathema Journal, 5(2), 193–206. https://doi.org/10.33365/jm.v5i2.2837

Fisher, D., Kusumah, Y. S., & Dahlan, J. A. (2020). Project-based learning in mathematics: A literatur review. Journal of Physics: Conference Series, 1657(1), 012032. https://doi.org/10.1088/1742-6596/1657/1/012032

Hake, R. R. (1999). Analyzing change/gain scores. Retrived December 11, 2022, from https://web.physics.indiana.edu/sdi/analyzingchange-gain.pdf

Hendriana, H., Rohaeti, E., & Sumarmo, U. (2021). Hard skills dan soft skills matematik siswa [Students' mathematical hard skills and soft skills]. PT Refika Aditama.

Hohenwarter, M., Hohenwarter, J., Kreis, Y., & Lavicza, Z. (2008). Teaching and learning calculus with free dynamic mathematics software Geogebra [Conference Session]. 11th International Congress on Mathematical Education, Monterry, Mexico. https://www.researchgate.net/publication/228869636_teaching_and_learning_calculus_with_free_dynamic_mathematics_software_geogebra

Islami, A. N., & Setiawan, W. (2020). Efek GeoGebra pada minat belajar siswa SMP [The effect of GeoGebra on learning interests of junior high school students]. Wahana Matematika dan Sains: Jurnal Matematika, Sains, dan Pembelajarannya, 14(1), 78–86. https://doi.org/10.23887/wms.v14i1.23759

Jatiariska, I. G. A., Sariyasa, & Astawa, I. W. P. (2020). The influence of Knisley mathematical learning model with geogebra towards mathematical connection and mathematical disposition. Journal of Physics: Conference Series, 1503(1), 012013. https://doi.org/10.1088/1742-6596/1503/1/012013

Khairani, V. F., & Putra, B. Y. G. (2020). Peningkatan kemampuan berpikir kritis matematis siswa SMA melalui model pembelajaran matematika knisley dengan metode brainstorming [Improving high school students' mathematical critical thinking skills through the knisley mathematical learning model with the brainstorming method]. Symmetry: Pasundan Journal of Research in Mathematics Learning and Education, 5(1), 1–16. https://doi.org/10.23969/symmetry.v5i1.2923

Knisley, J. (2003). A four-stage model of mathematical learning. The Mathematics Educator.

Koehler, M. J., & Mishra, P. (2009). What is technological pedagogical content knowledge? Contemporary Issues in Technology and Teacher Education, 9(1), 60–70. https://citejournal.org/volume-9/issue-1-09/general/what-is-technological-pedagogicalcontent-knowledge/

Maulyda, M. A., Rosyidah, A. N. K., & Hidayati, V. R. (2022). Elementary school students’ mathematical connection in problem-posing activities. Jurnal Elemen, 8(1), 99–116. https://doi.org/10.29408/jel.v8i1.4364

Monroe, E. E., & Mikovch, A. K. (1994). Making mathematical connections across the curriculum: activities to help teachers begin. School Science and Mathematics, 94(7), 371–376. https://doi.org/10.1111/j.1949-8594.1994.tb15697.x

Mulyana, E. (2009). Pengaruh model pembelajaran matematika knisley terhadap peningkatan pemahaman dan disposisi matematika siswa sekolah menengah atas program ilmu pengetahuan alam [The effect of the knisley mathematics learning model on increasing understanding and disposition of mathematics of high school students in the natural sciences program]. Artikel Jurnal Pasca UPI, 1–13. http://file.upi.edu/direktori/fpmipa/jur._pend._matematika/195401211979031-endang_mulyana/makalah/artikel_jurnal_pasca_upi.pdf

NCTM. (2000). Principles and standards for school mathematics. The National Council of Teachers of Mathematics, Inc.

Nurhidayah, & Susanti, A. (2019). Pengaruh model pembelajaran knisley terhadap kemampuan koneksi matematis siswa kelas VIII SMP Negeri 7 Merangin [The influence of the knisley learning model on the mathematical connection ability of class VIII students of SMP Negeri 7 Merangin]. Mat-Edukasia, 4(2), 36–44. https://journal.stkipypmbangko.ac.id/index.php/mat-edukasia/article/view/236

Rahman, T. (2020). Kajian teori pengaruh model pembelajaran knisley terhadap peningkatan kemampuan pemahaman konsep matematis siswa [Study of the theory of the effect of the knisley learning model on increasing students' ability to understand mathematical concepts]. Symmetry: Pasundan Journal of Research in Mathematics Learning and Education, 5(2), 197–213. https://doi.org/10.23969/symmetry.v5i2.3538

Rismawati, Hayati, R., & Husnul, K. (2020). Penerapan aplikasi geogebra untuk meningkatkan hasil belajar siswa pada materi matriks [Application of the geogebra application to improve student learning outcomes in matrix materials]. Jurnal Serambi Akademica, 8(2), 210–215. https://doi.org/10.32672/jsa.v8i2.2094

Rodiawati, L. (2016). Perbandingan koneksi matematika siswa antara yang menggunakan model pembelajaran discovery learning dengan model pembelajaran knisley [Comparison of students' mathematical connections between those using the discovery learning learning model and the knisley learning model]. Euclid, 3(2), 474–603. https://www.fkip-unswagati.ac.id/ejournal/index.php/euclid/article/view/215

Septian, A. (2022). Student’s mathematical connection ability through GeoGebra assisted project-based learning model. Jurnal Elemen, 8(1), 89–98. https://doi.org/10.29408/jel.v8i1.4323

Septiani, S. D. R., & Andiani, D. (2021). Implementasi pembelajaran means-ends analysis (mea) dan knisley untuk meningkatkan kemampuan berpikir kritis matematika dan self-efficacy siswa SMP [Implementation of means-ends analysis (mea) and knisley learning to improve mathematical critical thinking ability and self-efficacy of junior high school students]. JRMST | Jurnal Riset Matematika dan Sains Terapan, 1(1), 41–51. https://ejournal.unibba.ac.id/index.php/jrmst/article/view/784

Sumarmo, U. (2014a, January 14). Pengembangan hard skill dan soft skill matematik bagi guru dan siswa untuk mendukung implementasi kurikulum 2013 [Development of mathematical hard skills and soft skills for teachers and students to support the implementation of the 2013 curriculum] [Conference Session]. Prosiding Seminar Nasional Pendidikan Matematika Program Pasca Sarjana, Cimahi, Jawa Barat, Indonesia.

Sumarmo, U. (2014b, September 14). Assesmen soft skill dan hard skill matematik siswa dalam kurikulum 2013 [Assessment of students' mathematical soft skills and hard skills in the 2013 curriculum] [Conference Session]. Seminar Pendidikan Matematika, Batusangkar, Sumatra Barat, Indonesia.

Tseng, K. H., Chang, C. C., Lou, S. J., & Chen, W. P. (2013). Attitudes towards science, technology, engineering and mathematics (STEM) in a project-based learning (PjBL) environment. International Journal of Technology and Design Education, 23(1), 87–102. https://doi.org/10.1007/s10798-011-9160-x

Trisnawati, T. (2015). Penggunaan model pembelajaran matematika knisley (MPMK) untuk meningkatkan kemampuan koneksi matematis dan self confidence siswa mts [The use of the knisley mathematics learning model (MPMK) to improve the mathematical connection ability and self-confidence of mts students]. Pasundan Journal of Mathematics Education Jurnal Pendidikan Matematika, 5(1), 17–25. https://doi.org/10.23969/PJME.V5I1.2518

Yaniawati, P., Fisher, D., Permadi, Y. D., & Yatim, S. A. M. (2023). Development of mobile-based digital learning materials in blended learning oriented to students‟ mathematical literacy. International Journal of Information and Education Technology, 13(9), 1338–1347. https://doi.org/10.18178/ijiet.2023.13.9.1936

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Published

08-02-2024

How to Cite

Ichtiari, A. R., Fisher, D., Rahman, T., & Yatim, S. A. M. (2024). Enhancement of students’ mathematical connection through Knisley mathematics learning model assisted by GeoGebra. Jurnal Elemen, 10(1), 28–42. https://doi.org/10.29408/jel.v10i1.19786

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