Desain Pembelajaran Menggunakan Tessellation Berbasis Pendekatan Saintifik pada Materi Translasi dan Refleksi

  • Widiawati Widiawati STKIP Muhammadiyah Pagaralam

Abstract

The purpose of this study was to determine the role of tesselation in translational and reflection material in developing students' mathematical communication based on a scientific approach. The research method uses design research type validation study involving 30 students of class VII SMP 9 Palembang. The research process produces learning trajectory which contains a series of learning processes in two activities, namely scientific on translational material and scientific on reflection material. Every scientific activity consists of observing, asking, reasoning, trying, and forming networks. The results of the study showed that by providing learning material through a scientific approach, the role of tesselations could help students to carry out mathematical communication so that they could identify translational and reflection material. Therefore, students can understand the concepts of translation and reflection and solve problems related to the material. In conclusion, learning using tessellation with a scientific approach effectively helps students understand the concepts of translation and reflection. Through activities such as observing, asking, reasoning, trying, and forming networks

Keywords: Mathematical Communication, Scientific Approach, Tessellation

References

Adha, I & Refianti, R. (2018). Missauri Mathematics Project Berbasis Soal Open Ended Terhadap Kemampuan Komunikasi Matematika. Judika Education, 1(2), 135 – 143.

Beckmann, A. (2010). Learning Mathematic Through Scientific Contents and Methods. Germany: University of Education Schwabisch Gmund.

Deger, K., O & Deger, A., H. (2012). An Apllication of Mathematics Tessellation Method in Inteior Designing. Procedia: Sosial and Behavioral Sciences, 51, 249 – 256.

Fonseca, L. & Vale, I. (2009). Challenging Pattern Tasks With Geometric Transformations in Elementary Teachers Training: Tessellations, Polygons Patterns and Kaleidoscopes. Proceedings CIEAEM 61-Montreal, Quebec, Canada. Quaderni di Ricerca in Didattica (Matematica), Supplemento n.2, 263-271.

Guven, B. (2012). Using Dynamic Geometry Software to Improve Eight Grade Students’ Understanding of Transformation Geometry. Australasian Journal of Educational Tecchnology, 28(2), 364-382.

Hollebrands, K. F. (2003). High school students’ understanding of geometric transformations in the context of a technological environment. Journal of Mathematical Behavior, 22: 55-72.

Kemdikbud. (2013). Diklat Guru dalam Rangka Implementasi Kurikulum 2013. Jakarta: Kemdikbud.

Kershaw, J. (2014). CK-12 Middle School Math Concept Grade 6. Amerika Serikat: Flexbook.

Musfiqon, HM & Nurdyansyah. (2015). Pendekatan Pembelajaran Saintifik. Nizamia Learning Center: Sidoarjo.

Ontario Ministry of Education. (2010). Communication in the Mathematic Classroom. Toronto: On Queen’s Printer for Ontario.

Rosalin, E. (2008). Gagasan Merancang Pembelajaran Kontekstual. Bandung: PT Karsa Mandiri Persada.

Tunnisa, M., Rizal, M., & Karniman, T.,S. (2018). Penerapan Pendekatan Pendidikan Matematika Realistik pada Materi Transformasi untuk Meningkatkan Hasil Belajar Siswa di Kelas IXA SMPN 1 Tanantovea. Jurnal Elektronik Pendidikan Matematika Tadulako, 5(4), 401 – 413.

Vebrian, R., & Putra, Y. (2019). Desain Pembelajaran Penjumlahan dan Pengurangan Bilangan Menggunakan Konteks Bangka Belitung untuk Mendukung KBKM Siswa. Jurnal Pendidikan Matematika (JUDIKA EDUCATION), 2(1), 11-24. https://doi.org/https://doi.org/10.31539/judika.v2i1.718
Published
2019-12-12
How to Cite
Widiawati, W. (2019). Desain Pembelajaran Menggunakan Tessellation Berbasis Pendekatan Saintifik pada Materi Translasi dan Refleksi. Jurnal Pendidikan Matematika:Judika Education, 2(2), 80-90. https://doi.org/https://doi.org/10.31539/judika.v2i2.858
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