PENGEMBANGAN PERANGKAT PEMBELAJARAN FISIKA BERBASIS MEDIA LABORATORIUM VIRTUAL PADA MATERI DUALISME GELOMBANG PARTIKEL DI SMA TUT WURI HANDAYANI MAKASSAR
Abstract
Telah dilakukan penelitian untuk mengembangkan media dan perangkat pembelajaran Fisika berbasis laboratorium virtual. Prosedur pengembangannya mengikuti model four-D. Hasil penelitian menunjukkan (1) media laboratorium virtual model presentasi dan tutorial pada materi radiasi benda hitam, efek fotolistrik, dan efek Compton diperoleh hasil valid dan reliabel; (2) perangkat pembelajaran berupa Rencana Pelaksanaan Pembelajaran (RPP), Buku Bacaan Peserta Didik (BBPD), dan Lembar Kerja Peserta Didik (LKPD), selain dibuat dalam bentuk hardcopy, juga softcopy autorun CD yang dilengkapi link ke beberapa website; (3) aktivitas peserta didik di atas 80%, menunjukkan pembelajaran yang dilakukan mampu mengaktifkan peserta didik.
Â
A research has been conducted to develop media and physicslearning device based on virtual laboratory. The development procedure followed the four-D models. Results showed (1) virtual lab models media presentations and tutorial son the matter of black body radiation, the photo electric effect and Compton effect were valid and reliable; (2) learning tools in the form of Lesson Plan, Students Textbook, and Students Worksheet, as well as hardcopy, softcopy and autorun CD which links to several websites; (3) activity learners above 80%, indicating that learning was able to activate the learners.
Keywords
Full Text:
PDFReferences
Cengiz, T. 2010. The Effect of the Virtual Laboratory on Students’ Achievement and Attitude in Chemistry. International Online Journal of Educational Sciences, 2 (1): 37–53.
Chodijah, St., Fauzi, A., & Wulan, R. 2012. Pengembangan Perangkat Pembelajaran Fisika Menggunakan Model Guided Inquiry yang Dilengkapi Penilaian Portofolio pada Materi Gerak Melingkar. Jurnal Pendidikan Fisika Indonesia, 1 (2): 1-19.
Daesang, K., Dong-Joong K., &Woo-Hyung W. 2013. Cognitive Synergy in Multimedia Learning. International Education Studies, 6 (4): 76-84.
Dobrzański, L. A. & Honysz, R. 2011. Virtual examinations of alloying elements influence on alloy structural steels mechanical properties. Journal of Achievements in Mechanical and Materials Engineering, 49 (2): 251–258.
Gundogdu, K., Silman, F., & Ozan, C. 2011. A Comparative Study on Perception of Teachers on the Use of Computers in Elementary Schools of Turkey and T.R.N.C. International Online Journal of Educational Sciences, 3 (1): 113-137.
Kutluca, T. 2010. Investigation of Teachers’ Computer Usage Profiles and Attitudes toward Computers. International Online Journal of Educational Sciences, 2 (1): 81-97.
Mahanta, A. & Sarma, K.K. 2012. Online Resource and ICT-Aided Virtual Laboratory Setup. International Journal of Computer Applications, 52 (6): 44-48.
Maliza, S., Jack, S., Bohari, Z., & Jusoff, K. 2011. Use of Information and Communication Technology in Enhancing Teaching and Learning. International Education Studies, 4 (2): 153–156.
Martı´nez, G., Francisco, L., Naranjo, A´ ngel, L., Pe´rez, Suero, M. I.,& Pardo, P. J. 2011. Comparative study of the effectiveness of three learning environments: Hyper-realistic virtual simulations, traditional schematic simulations and traditional laboratory. Physical Review Special Topics - Physics Education Research, 7 (2): 1-12.
Samsudin, A., Suhendi, E., Efendi, R., & Suhandi, A. 2012. Pengembangan “Cels†dalam Eksperimen Fisika Dasar untuk Mengembangkan Performance Skills dan Meningkatkan Motivasi Belajar Mahasiswa. Jurnal Pendidikan Fisika Indonesia, 8 (1): 15-25.
Tatli, Z., & Ayas, A. 2012.Virtual Chemistry Laboratory: Effect Of Constructivist Learning Environment. Turkish Online Journal of Distance Education, 13 (1): 183–199.
Yulianti, D., Khanafiyah, S., & Sugiyanto. 2012.Penerapan Virtual Experiment Berbasis Inkuiri untuk Mengembangkan Kemandirian Mahasiswa. Jurnal Pendidikan Fisika Indonesia, 8 (2): 127-134.
Refbacks
- There are currently no refbacks.