MAKING SUDOKU PUZZLES LEARNING MEDIA ON ELEMENTS PERIODIC SYSTEM MATERIALS

Main Article Content

Supyan Sauri
Cucu Zenab Subarkah
Sari Sari

Abstract

Sudoku Puzzles is one of the educational game learning media which has advantages, one of which is being able to develop ways of reasoning, thinking correctly according to logic. One of the chemical concepts that requires this medium is the Periodic System of the Elements material. This study aims to analyze the validation test of Sudoku Puzzles learning media products on the Elements Periodic System material and describe the appearance of Sudoku Puzzles learning media products on the Elements Periodic System material. The stages of this research use the Design Base Research (DBR) method to develop Sudoku Puzzles learning media on the Elementary Periodic System material as a learning process that can challenge students through a game. This research procedure uses the ADDIE model consisting of several stages including Analysis, Design, and Development. Based on the
instruments used, namely flowcharts and storyboards, the Sudoku Puzzles learning media was made, then validation tests were carried out on three validators, namely media experts, learning experts and content experts.
The validation result data shows a value of 0.89, thus the Sudoku Puzzles learning media is declared valid and can be used as a tool in the learning process of the Elements Periodic System material.

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Cucu Zenab Subarkah, Prodi Pendidikan Kimia, UIN Sunan Gunung Djati Bandung

Sudoku Puzzles is one of the educational game learning media which has advantages, one of which is being able to develop ways of reasoning, thinking correctly according to logic. One of the chemical concepts that requires this medium is the Periodic System of the Elements material. This study aims to analyze the validation test of Sudoku Puzzles learning media products on the Elements Periodic System material and describe the appearance of Sudoku Puzzles learning media products on the Elements Periodic System material. The stages of this research use the Design Base Research (DBR) method to develop Sudoku Puzzles learning media on the Elementary Periodic System material as a learning process that can challenge students through a game. This research procedure uses the ADDIE model consisting of several stages including Analysis, Design, and Development. Based on the instruments used, namely flowcharts and storyboards, the Sudoku Puzzles learning media was made, then validation tests were carried out on three validators, namely media experts, learning experts and content experts. The validation result data shows a value of 0.89, thus the Sudoku Puzzles learning media is declared valid and can be used as a tool in the learning process of the Elements Periodic System material.

References

Aqib, Z. dan Mutadlo. (2016). Kumpulan Metode Pembelajaran Kreatif dan Inovatif. Bandung:

PT Sarana Tutorial Nurani Sejahtera.

Asni, W. S. (2020). Pengaruh Model Pembelajaran Inkuiri Terbimbing Terhadap Hasil Belajar

Kimia Siswa Materi Pokok Hidrokarbon Pada Kelas Xi Pmipa Sman 1 Woha Tahun Ajaran

/2020. Chemistry Education Practice, 3(1).

Endang, S. & Widya Maya S. (2015). Penerapan Model Assure Dengan Metode Problem Solving

Untuk Meningkatkan Keterampilan Berpikir Kritis. Jurnal Inovasi Pendidikan Kimia, 9(1),

-1477.

Frydenberg, M. & Andone, D. (2011). Learning for 21st Century Skills. International Conference

on IEEE, (pp. 314-318).

Hayon, V.H.B., Wariani, T., dan Bria, C. (2017). Pengaruh Kemampuan Berpikir Tingkat Tinggi

(High Order Thinking) terhadap Hasil Belajar Kimia Materi Pokok Laju Reksi Mahasiswa

Semester 1 Program Studi Pendidikan Kimia FKIP UNWIRA Kupang Tahun Akademik

/2017. Seminar Nasional Pendidikan Sains II UKSW, 309-316.

Heong, Y.M., Othman, W.B., Yunos, J.B., Kiong, T.T., Hassan, R., and Mohamad, M.M.B.

(2011). The Level of Marzano Higher Order Thinking Skills among Technical Education

Students . International Journal of Social Science and Humanity , 1(2), 121-125.

Iskandar, D., dan Senam. (2015). Studi Kemampuan Guru Kimia SMA Lulusan UNY dalam

mengembangkan Soal UAS Berbasis HOTS . Jurnal Inovasi Pendidikan IPA , 1(1), 65-72.

Mahaffy, P. (2004). The Future Shape of Chemistry Education. Chemistry Education Research and

Practice, 5(3), 229–245. .

Munthe, Bermawi. (2010). Desain Pembelajaran. Yogyakarta: Pustaka Insan.

Ngain, K., Andari, P.A. (2019). Analisis Kesulitan Belajar Kimia Materi Hidrokarbon (Study Kasus

SMA Negeri di Semarang). Seminar Nasional Edusaintek. FMIPA UNIMUS 2019.

Ramazan, Yilmaz. (2013). Integrating Technology into Classroom: The Learner-Centered

Instructional Design. International Journal on New Trends in Education and Their

Implications, 4(4), 141.

Ristiyani, E., dan Bahriah, E.S. (2016). Analisis Kesulitan Belajar Kimia Siswa di SMAN X Kota

Tanggerang Selatan. Jurnal Penelitian dan Pembelajaran IPA, 2(1), 18-29.

Sani, R.A. (2019). Pembelajaran Berbasis HOTS (Higher Order Thinking Skills). Tangerang:

TSmart.

Smaldino, et all. (2012). Teknologi Pembelajaran dan Media untuk Belajar, terjemahan Arif

Rahman. Jakarta: Kencana.

Subarkah, C.Z., Rahayu, A.S., Sundari, C.D.D., and Chusni, M.M. (2017). Student's Higher Order

Thinking Ability in Electrolysis Cell. Telah diseminarkan di Bandung Language Teaching

Conference on Process Publication in SCite Press. 1-7.

Sugiyono. (2017). Metode Penelitian Pendidikan Pendekatan Kuantitatif, Kualitatif dan R&D.

Bandung: Alfabeta.

Syahidul, A.S., Masykuri, M, dan H.E.S.V. (2015). Analisis Higher Order Thinking Skills (HOTS)

Menggunakan Instrumen Two-Tier Multiple Choise pada Materi Kelarutan dan Hasil Kali

Kelarutan untuk Siswa Kelas XI SMAN 1 Surakarta. Telah diseminarkan di Seminar

Nasional Pendidikan. 59-66.