AUGMENTED REALITY-BASED VIRTUAL LABORATORY APPLICATION AS CHEMISTRY LEARNING MEDIA FOR ACID-BASE TITRATION MATERIAL
Abstract
Purpose – This research aims to develop an augmented reality-based virtual laboratory application that is feasible as a chemistry learning media for acid-base titration material, assessed as valid, practical, and effective.
Methodology – This study is a type of research and development using the 4D (Define, Design, Develop, and Disseminate) model, which is limited to the development stage only. The research was conducted at SMAN 2 Sidoarjo with 40 science students of class XI as the limited trial subjects. Data were collected from validation questionnaires, student response questionnaires, student activity observation sheets, and learning outcome tests, such as pretest and posttest. Descriptive quantitative methods were used to analyze the data.
Findings – Validity results show that the developed application is valid with a mode score of 4 (good category) on both content and construct validity. Practicality analysis shows that the developed application is efficient, with an average percentage of student responses of 96% and a relevant student activity percentage of 93,32%, both of which fall into the outstanding category. Effectiveness analysis based on the Wilcoxon signed-rank test results revealed a significant difference between the pretest and posttest scores, with a significance value obtained of 0,000 (which is less than the significance value of 0,05), indicating that the developed application is efficacious in improving students’ learning outcomes. Therefore, it is concluded that the augmented reality-based virtual laboratory application developed is feasible as a chemistry learning medium for acid-base titration material.
Contribution – An innovative chemistry learning media that facilitates a more visual and interactive understanding of the acid-base titration concept, providing an alternative solution to overcome limited laboratory facilities in schools and supporting more efficient implementation of chemistry practicum activities.Keywords
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Abdjul, T., & Ntobuo, N. E. (2018). Pembelajaran Fisika Berbasis Virtual Lab. Paper Knowledge. Toward a Media History of Documents, 7(2), 1–44.
Akker, J. van den, Branch, R. M., Gustafson, K., Nieveen, N., & Plomp, T. (1999). Design Approaches and Tools in Education and Training. In Design Approaches and Tools in Education and Training. Kluwer Academic Publishers. https://doi.org/10.1007/978-94-011-4255-7
Alfaro, J. L. D., Gantois, S., Blattgerste, J., De Croon, R., Verbert, K., Pfeiffer, T., & Van Puyvelde, P. (2022). Mobile Augmented Reality Laboratory for Learning Acid-Base Titration. Journal of Chemical Education, 99(2), 531–537. https://doi.org/10.1021/acs.jchemed.1c00894
Arikunto, S. (2018). Dasar-Dasar Evaluasi Pendidikan (Edisi Ketiga). PT Bumi Aksara.
Depdiknas. (2003). Standar Kompetensi Mata Pelajaran Kimia: Sekolah Menengah Atas dan Madrasah Aliyah. Pusat Kurikulum Balitbang Depdiknas.
Eli, R. N., & Widiyanti, R. (2020). The Use of Virtual Laboratory of Acid-Base Materials to Improve Students Learning Outcome. JTK (Jurnal Tadris Kimiya), 5(2), 220–229. https://doi.org/10.15575/jtk.v5i2.9703
Hauriyah, I., Muhab, S., & Hadinugrahaningsih, T. (2019). Pengaruh Laboratorium Virtual dalam Kegiatan Praktikum Terhadap Keterampilan Laboratorium Siswa pada Materi Titrasi Asam Basa. JRPK: Jurnal Riset Pendidikan Kimia, 9(2), 72–79. https://doi.org/10.21009/jrpk.092.03
Haviz, M. (2013). Research and Development; Penelitian di Bidang Kependidikan yang Inovatif, Produktif dan Bermakna. Ta’dib, 16(1). https://doi.org/10.31958/jt.v16i1.235
Herman, M., Rahmi, E., Hanifan, N., & Herman, H. (2022). Pengembangan Media Pembelajaran Augmented Reality Berbasis Android Terintegrasi Nilai Keislaman pada Materi Larutan Elektrolit dan Non Elektrolit untuk Tingkat SMA/MA. Edukatif : Jurnal Ilmu Pendidikan, 4(3), 5025–5038. https://doi.org/10.31004/edukatif.v4i3.2829
Ikhsan, J., Sugiyarto, K. H., & Astuti, T. N. (2020). Fostering Student’s Critical Thinking Through A Virtual Reality Laboratory. International Journal of Interactive Mobile Technologies, 14(8), 183–195. https://doi.org/10.3991/IJIM.V14I08.13069
Johnson-Glenberg, M. C., Yu, C. S. P., Liu, F., Amador, C., Bao, Y., Yu, S., & LiKamWa, R. (2023). Embodied mixed reality with passive haptics in STEM education: randomized control study with chemistry titration. Frontiers in Virtual Reality, 4(July), 1–20. https://doi.org/10.3389/frvir.2023.1047833
Lestanata, Y., & Pribadi, U. (2016). Efektivitas Pelaksanaan Program Pembangunan Berbasis Rukun Tetangga di Kabupaten Sumbawa Barat Tahun 2014-2015. Journal of Governance and Public Policy, 3(3), 368–389. https://doi.org/10.18196/jgpp.2016.0063
Lestari, L., Aprilia, L., Fortuna, N., Cahyo, R. N., Fitriani, S., Mulyana, Y., & Kusumaningtyas, P. (2023). Review: Laboratorium Virtual untuk Pembelajaran Kimia di Era Digital. Jambura Journal of Educational Chemistry, 5(1), 1–10. https://doi.org/10.34312/jjec.v5i1.15008
Maksum, M. J., Sihaloho, M., & Kilo, A. L. (2017). Analisis Kemampuan Pemahaman Siswa pada Konsep Larutan Penyangga Menggunakan Three Tier Multiple Choice Tes. Jambura Journal of Educational Chemistry, 12(1), 47–53.
Margoum, S., Berrada, K., Burgos, D., & El-Hasri, S. (2022). Microcomputer-Based Laboratory Role in Developing Students’ Conceptual Understanding in Chemistry: Case of Acid-Base Titration. Journal of Chemical Education, 99(7). https://doi.org/https://pubs.acs.org/doi/10.1021/acs.jchemed.1c01254
Marzuki, H., & Astuti, R. T. (2017). Analisis Kesulitan Pemahaman Konsep pada Materi Titrasi Asam Basa Siswa SMA. Orbital: Jurnal Pendidikan Kimia, 1(1), 22–27. https://doi.org/10.19109/ojpk.v1i1.1862
Mesra, R., Salem, V. E. T., Polii, M. G. M., Santie, Y. D. A., Wisudariani, N. M. R., Sarwandi, Sari, R. P., Yulianti, R., Nasar, A., Dhiki, Y. Y., & Santiari, N. P. L. (2023). Research & Development dalam Pendidikan. PT. Mifandi Mandiri Digital.
Muchson, M., Munzil, M., Winarni, B. E., & Agusningtyas, D. (2019). Pengembangan Virtual Lab Berbasis Android pada Materi Asam Basa untuk Siswa SMA. J-PEK (Jurnal Pembelajaran Kimia), 4(1), 51–64. https://doi.org/10.17977/um026v4i12019p051
Mustaqim, I. (2016). Pemanfaatan Augmented Reality sebagai Media Pembelajaran. Jurnal Pendidikan Teknologi Dan Kejuruan, 13(2), 174–183.
Ningsih, R. D., Natasyah, E., Ananta, S., Fitra, P., Novianty, R., & Rahma, N. (2019). Pegasus: Penerapan Teknologi Menggunakan Chemcollective’S Virtual Chemistry Laboratory. Jurnal Pengabdian UntukMu NegeRI, 3(1), 73–79. https://doi.org/10.37859/jpumri.v3i1.1309
Nursalam. (2012). Pengukuran dalam Pendidikan. Alauddin University Press.
Permana, R., Andrianof, H., & Afira, R. (2018). Augmented Reality (AR) Sarana Promosi Obyek Pariwisata Jam Gadang Bukittinggi dan Pantai Wisata Carocok Pesisir Selatan. Indonesian Journal of Computer Science, 7(2), 129–142. https://doi.org/10.33022/ijcs.v7i2.81
Priliyanti, A., Muderawan, I. W., & Maryam, S. (2021). Analisis Kesulitan Belajar Siswa dalam Mempelajari Kimia Kelas XI. Jurnal Pendidikan Kimia Undiksha, 5(1), 11–18. https://doi.org/10.23887/jjpk.v5i1.32402
Rahman, D., Adlim, & Mustanir. (2015). Analisis Kendala dan Alternatif Solusi terhadap Pelaksanaan Praktikum Kimia pada SLTA Negeri Kabupaten Aceh Besar. Jurnal Pendidikan Sains Indonesia, 3(2), 1–13. http://jurnal.unsyiah.ac.id/jpsi
Riduwan. (2012). Skala Pengukuran Variabel-Variabel Penelitian. Alfabeta.
Rinta, C., & Fitriza, Z. (2022). Pengembangan Tes Diagnostik Esai Terstruktur Kimia Materi Titrasi Asam Basa Sebagai Instrumen Analisis Hasil Belajar Siswa. Edukimia, 4(2), 084–089. https://doi.org/10.24036/ekj.v4.i2.a353
Rusdi, H., Riyanti, R., & Utari, P. (2023). VILBAR (Virtual Laboratory Based Augmented Reality) sebagai Media Praktikum Kimia di Universitas Muslim Maros. Didaktika: Jurnal Kependidikan, 12(4), 1051–1060. https://doi.org/10.58230/27454312.265
Salame, I. I., Montero, A., & Eschweiler, D. (2022). Examining some of the Students’ Challenges and Alternative Conceptions in Learning about Acid-base Titrations. IJCER (International Journal of Chemistry Education Research), 6(1), 1–10. https://doi.org/10.20885/ijcer.vol6.iss1.art1
Sariati, Kadek, N., Suardana, Nyoman, I., Wiratini, & Made, N. (2020). Analisis Kesulitan Belajar Kimia Siswa Kelas XI pada Materi Larutan Penyangga. Jurnal Imiah Pendidikan Dan Pembelajaran P-ISSN : 1858-4543 e-ISSN : 2615-6091, 4(1), 86–97. https://doi.org/10.23887/jipp.v4i1.15469.
Suarni, Husain, H., & Salempa, P. (2022). Pengaruh Pengaruh Media Virtual Labs Berbasis Problem Based Learning (PBL) Terhadap Hasil Belajar Peserta Didik Kelas XI MIA SMA Negeri 1 Jeneponto (Studi pada Materi Pokok Titrasi Asam Basa). JRPK: Jurnal Riset Pendidikan Kimia, 12(1), 32–37. https://doi.org/10.21009/jrpk.121.05
Thiagarajan, S., Semmel, D. S., & Semmel, M. I. (1974). Instructional Development for Training Teacher of Exceptional Children. Indiana University.
Wati, A. (2021). Penggunaan Media Virtual Laboratory untuk Meningkatkan Penguasaan Konsep Materi dan Kemandirian Siswa Melakukan Praktikum. Jurnal Guru Dikmen Dan Diksus, 4(2), 256–270. https://doi.org/10.47239/jgdd.v4i2.373
DOI: https://doi.org/10.36987/jes.v12i5.7641
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