EFEKTIVITAS FLIPBOOK NANOTEKNOLOGI BERBASIS ETNOSAINS TERINTEGRASI AUGMENTED REALITY DALAM MENDUKUNG PROGRAM SDGs UNTUK SISWA SMA

Sephianti Dwika Ezha, Desi Fauza Nurjanah, Vina Nurul Amalia, Thara Nabila Ramaulita, Galih Lazuardi Nursyahbana, Ijang Rohman, Hokcu Suhanda, Triannisa Rahmawati

Abstract


A flipbook with augmented reality based on ethnoscience, supported by Heyzine and Assembler, contains nanotechnology content for high school students. It is an interactive learning media in the form of an electronic book that contains photos, text, and animated content designed to assist students in learning the material through the visuals offered. Page flipping has a transition effect that helps students read each page and increases their learning use. Applied visual arts ethnoscience exemplifies the combination of community culture and science. Augmented reality is utilized to show objects in 3D and realistically related to the ethnoscience of applied fine arts in the Cirebon area, such as the scissor-grip home, megamendung batik, ceramics, masks, kujang, and paintings. The goal of this research is to develop digital teaching materials that can adjust to evolving technologies in order to increase educational quality. The data was collected using a quasi-experimental one-group pretest-posttest design for a total of 30 students, which was then processed using the ADDIE model (Analysis, Design, Development, Implementation, and Evaluation) using descriptive statistics. This study found that students had good perceptions of the presence of a flipbook media with AR based on ethnoscience. Ethnoscience-based digital learning media can be used as interactive learning media because they provide precise visualizations of the concepts and conditions encountered during the learning process.


Keywords


Augmented Reality, Ethnoscience, Flipbook, Chemistry; Nanotechnology

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References


Aji, N. R. (2016). Pengintegrasian Konteks Nanoteknologi dalam Pembelajaran Kimia Melalui Contextual Learning untuk Meningkatkan Keterampilan Proses Siswa. ReTII.

Arianty, A. D., & Winaryati, E. (2023, November). Pengembangan iJateng perpustakaan digital sebagai upaya mewujudkan tujuan pembangunan berkelanjutan (SDGs) di bidang pendidikan. In Prosiding Seminar Nasional Unimus (Vol. 6).

Astuti, R. T. (2020). Relevansi Kegiatan Praktikum Dengan Teori Dan Pemahaman Mahasiswa Pada Mata Kuliah Kimia Dasar Lanjut. Orbital: Jurnal Pendidikan Kimia, 4(1), 16-30.

Assemblr. (2023). Assemblr-Visualize Ideas in 3D and AR. https://id.edu.assemblrworld.com/how-it-works.

Bai, C., Dallasega, P., Orzes, G., & Sarkis, J. (2020). Industry 4.0 technologies assessment: A sustainability perspective. International journal of production economics, 229, 107776.

Damayanti, A. N., & Raharjo, R. (2020). Validitas flipbook interaktif pada materi sistem pernapasan manusia untuk melatihkan kemampuan berpikir kritis siswa kelas XI SMA. Berkala Ilmiah Pendidikan Biologi (BioEdu), 9(3), 443-450.

Fukuda, K. (2020). Science, technology and innovation ecosystem transformation toward society 5.0. International journal of production economics, 220, 107460.

Hardianti, A., Suharti, S., & Purnamawati, P. (2022). Pentingnya Manajemen Pembelajaran Critical Thingking Skill Pada Sekolah Menengah Kejuruan (Smk). VOCATIONAL: Jurnal Inovasi Pendidikan Kejuruan, 2(2), 106-115.

Harta, J. (2017). Pembelajaran kimia berbasis green nanochemistry untuk mengembangkan hots siswa sma. In Seminar Nasional Kimia Dan Pendidikan KImia IX (pp. 56-61).

Khasanah, W. U., & Sumarni, W. (2021). Desain LKPD menggunakan pendekatan etnosains untuk meningkatkan kemampuan literasi kimia peserta didik. Chemistry in Education, 10(2), 78-85.

Maki, H. A., Gunawan, G., Sauri, S., & Handayani, S. (2022). Pola hubungan kebijakan dan pembangunan pendidikan dan kebudayaan. Al Qalam: Jurnal Ilmiah Keagamaan dan Kemasyarakatan, 16(3), 1124-1137.

Mujala, A., Reza, M., & Puspita, K. (2022). Pengembangan Buku Pegangan Guru untuk Pembelajaran Kimia Terintegrasi Ayat-ayat Al-Qur’an. Jurnal Pendidikan Sains Indonesia (Indonesian Journal of Science Education), 10(1), 161-175.

Rachman, F. A., Ahsanunnisa, R., & Nawawi, E. (2017). Pengembangan LKPD berbasis berpikir kritis materi kelarutan dan hasil kali kelarutan pada mata pelajaran kimia di SMA. ALKIMIA: Jurnal Ilmu Kimia dan Terapan, 1(1), 16-25.

Rahayu, W. E., & Sudarmin, S. (2015). Pengembangan modul IPA terpadu berbasis etnosains tema energi dalam kehidupan untuk menanamkan jiwa konservasi siswa. Unnes Science Education Journal, 4(2).

Endra, R. Y., & Agustina, D. R. (2019). Media Pembelajaran Pengenalan Perangkat Keras Komputer Menggunakan Augmented Reality. Expert, 9(2), 345989.

Samuji, S., & Siswanto, J. (2020). Profil Ketrampilan Berpikir Kreatif Konsep Nanotechnologi Menggunakan Model Problem Base Learning pada Siswa SMA. Media Penelitian Pendidikan: Jurnal Penelitian dalam Bidang Pendidikan dan Pengajaran, 14(2), 133-140.

Sapriyah, S. (2019, May). Media pembelajaran dalam proses belajar mengajar. In Prosiding Seminar Nasional Pendidikan FKIP (Vol. 2, No. 1, pp. 470-477).

Siemeister, G., Mengel, A., Fernández-Montalván, A. E., Bone, W., Schröder, J., Zitzmann-Kolbe, S., ... & Mumberg, D. (2019). Inhibition of BUB1 kinase by BAY 1816032 sensitizes tumor cells toward taxanes, ATR, and PARP inhibitors in vitro and in vivo. Clinical Cancer Research, 25(4), 1404-1414.

Sinulingga, J. S. (2023, April). Implementasi E-LEARNING Sebagai Inovasi Pendidikan Berbasis Teknologi Dalam Mewujudkan Sustainable Development Goals (Sdgs). In Seminar Nasional LPPM Ummat (Vol. 2, pp. 715-724).

Tafonao, T. (2018). Peranan media pembelajaran dalam meningkatkan minat belajar mahasiswa. Jurnal komunikasi pendidikan, 2(2), 103-114.




DOI: http://dx.doi.org/10.22373/lj.v12i2.26542

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