Abstrak: Belajar sains pada hakekatnya merupakan kegiatan berpikir dan memerlukan proses penyelidikan. Namun pembelajaran dan pengajaran fisika terkait fenomena getaran-gelombang masih dirasa sulit dan tidak menarik bagi kebanyakan peserta didik. Penelitian bertujuan mengidentifikasi profil pembelajaran dan pengajaran yang diterapkan saat ini, mengidentifikasi penggunaan media ICT, dan menganalisis ketersediaan sarana-prasarana penunjang, serta nilai karakter yang dimiliki peserta didik. Jenis Penelitian adalah deskriptif kualitatif, sampel diambil secara Purposive sampling. Data dikumpulkan menggunakan angket tertutup yang diperkuat dengan wawancara, dan analisis data menggunakan kategori prosentase yang dideskripsikan secara kualitatif. Disimpulkan bahwa pembelajaran dan pengajaran konsep getaran-gelombang belum berfokus pada pengembangan keterampilan, kreatifitas dan aktivitas penyelidikan, literasi dan integrasi TIK masih sangat minim meski sarana-prasarana cukup tersedia. Nilai karakter dalam kerja sama dan rasa ingin tahu peserta didik sudah cukup baik, namun nilai keperdulian dan tanggung jawab terhadap pelestarian lingkungan masih rendah. Diperlukan desain pembelajaran dan pengajaran getaran-gelombang yang lebih kontekstual, terintegrasi dengan teknologi, dan memfokuskan pada proses yang berpusat pada peserta didik.

Abstract: Learning science is essentially thoughtful and requires an inquiry process. However, learning and teaching physics on vibration-wave phenomena is still difficult and unattractive to most learners. This study aims to identify current learning and teaching profiles, identify the use of ICT, and analyze the availability of supporting facilities, as well as the value of characters that the learner has. Type of research is descriptive qualitative, samples taken by purposive sampling. Data were collected using a closed questionnaire reinforced by interviews, and data analysis using a percentage category that is described qualitatively. It was concluded that learning and teaching physics have not focused on skills, creativity, and investigation activities. Literacy and ICT integration are still minim although adequate facilities are available. The value of character in cooperation and curiosity of learners is good, but the value of caring and responsibility towards environmental conservation is still low. So it needs a more contextual learning and teaching design of vibration-waves, integrated with technology, and focuses on a learner-centered process.

Pembelajaran, Pengajaran, Getaran-gelombang, Integrasi ICT

Buku

Brotosiswoyo, B. S. Kiat Pembelajaran MIPA dan Kiat Pembelajaran Fisika di Perguruan Tinggi, Jakarta, Departemen Pendidikan Nasional, 2000.

Dahar, R. W., Teori-teori belajar. Erlangga, Jakarta, 2006.

Huggins, E. R., Physics 2000, Department of Physics dartmouth College Hanover , New Hampshire, 2000.

Hosnan, M. Pendekatan Saintifik dan Kontekstual dalam Pembelajaran Abad 21, Kunci Sukses Implementasi kurikulum 2013, Ghalia Indonesia, Bogor, 2014.

Ornstein, L., & Gutek. (2011). Foundation of Education, International edition 11 th., Wadsworth, Australia, 2011.

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Wiyanto. Menyiapkan Guru Sains Mengembangkan Kompetensi Laboratorium. Semarang, UNNES Press, 2008.

Jurnal

Wenning, C. J., “The Levels of Inquiry Model of Science Teaching”, Journal of Physics Teacher Education, (2012), Online. [Tersedia Online]: http://www.phy.ilstru.edu/jpteo [30-01-2013].

Kirchhoff, M. M., “Review of Green Organik Chemistry in Lecture and Laboratory”. Journal of Chemical Education. 90. (6), 683-684, 2013.

Maria, E., “A Simple Experiment to Explore Standing Waves in a Flexible Corrugated Sound Tube”. Journal the Physics Teacher, Vol. 49. September 2011.

Erin, M. K, & Jhon R. de Bruyn., “Understanding of Mechanical Waves Among Second-Year Physics Major”, Can. J. Phys. 89: Vol. 89.1155–1161 (2011).

Zdeslav H., Corey, & Chelsea B., “Demonstrating Sound Wave Propagation with Candle Flame and Loudspearker”. The Physics Teacher. Vol. 51. Doi: 10.1119/1.4772030.2014.

Imelda S. C., & Subramaniam, R. “Exploring Student’s Conceptualization of the Propagation of Periodic Wave”. Journal: The Physics Teacher, Vol 48. Januari 2010.

Apisit T., et al. “Consistency of Student’s Conceptions of Wave Propagation: Findings from a Conceptual Survey in Mechanical Waves”. Physics Education Research, 7, 020101.2011.

Petersen, M. R. “Musical Analysis and Synthesis in Matlab”. The college mathematics journal, Vol.35. N0.5, November 2007.

Pavel S., Petrov, Tatyana N., & Petrova., “Asymptotic Solution for the Problem of Sound Propagation in a Sea with an Underwater Canyon”. J. Accoust. Soc. Am. 136 (4), Pt.2 ,Oktober 2014.

Inman, F. W., “A Standing Wave Experimenting With a Guitar”. The Physics Teacher of Journal, Vol.44. N0. 465, October 2006.

Torres, J.A., & Rendon, P.L. “A Simple Method for Synthesizing and Producing Guitar Sound”. Education journal of physics, vol.34.503-510, 2013.

Wilton, P., & Jurgen, W. “The Speed of Sound in Air: an at-Home Experiment”. The physics teacher journal, vol.43. 2005.

Paul, G., Sarit, B.S., & Tamar, D. “Resonance in Flaks and Pipes”. The physics teacher journal, Vol.44. 2006.

Prosiding/Artikel Seminar

Liliasari, Redesigning Indonesian Ccience Curriculum based on Generic Science Skills. The 4th International Seminar on Science Education, School of Graduate Studies UPI.

Marzuki & Hinduan, A., Indentifikasi Kemampuan Generik Sains yang dapat Dikembangkan melalui Pembelajaran IPA (fisika) pada Topik Kinematika Gerak Lurus. Prosiding 2nd International Seminar Practic Pedagogic in Global Education Prespectif, Indonesia Universitas of Education, 2010.

Rahman, S.A., Ghazali, M., & Ismail, Z., Integrating ICT In Mathematics Teaching Methods Course: How Has ICT Changed Student Teachers’ Perception About Problem Solving. The Mathematics Education into the 21st Century Project Proceedings of the International Conference The Decidable and the Undecidable in Mathematics Education, Czech Republic. 2003.

Ishafit, dkk. Teknologi Informasi dan Komunikasi dalam Pembelajaran Fisika: Komputerisasi Eksperimen Bunyi Berbasis Soundcard Laptop. Prosiding Seminar Nasional Fisika UNJ. 2012.