Abstrak Penelitian ini bertujuan untuk: (1) menghasilkan model outdoor learning melalui project berbasis local wisdom yang layak digunakan dalam pembelajaran fisika, (2) mengetahui keefektifan penggunaan model outdoor learning melalui project berbasis local wisdom. Penelitian pengembangan ini menggunakan metode pengembangan R & D (Research dan Development). Pada tahap Development, peneliti mengadopsi model 4D, yaitu Define, Design, Develop, dan Disseminate. Hasil penelitian menunjukkan bahwa model outdoor learning melalui project berbasis local wisdom yang dikembangkan layak digunakan dari segi produk pendukung pembelajaran yang memenuhi kriteria sangat tinggi menurut para ahli, praktis menurut guru dan peserta didik. Lembar observasi yang memenuhi kriteria valid dan reliabel berdasarkan hasil ICC dan tes hasil belajar yang memenuhi kriteria valid dan reliabel berdasarkan hasil Quest. Selain itu, model outdoor learning melalui project berbasis local wisdom lebih efektif digunakan dalam pembelajaran fisika dilihat dari hasil analisis multivariate dan GLMMDs yang memperoleh nilai signifikansi 0,000 dan MD yang tinggi.   AbstractThis research was aimed to: (1) produce outdoor learning via project based suitable local wisdom model used in physics learning, (2) know the effectiveness in using outdoor learning via project based local wisdom model. This developing research used a R & D method (Research and Development). On Development step, the researcher adopted 4D model, they were Define, Design, Develop, dan Dissemination. The results showed that the developed outdoor learning via project based local wisdom model was suitable to be used in terms of learning support product that was in very high category according expert, practical according teacher and students. In addition the observation sheet was in valid criteria and reliabel based on ICC and the learning outcome test was in valid criteria and reliabel based on Quest. Besides, outdoor learning via project based local wisdom model was effective to be used in physics learning, seen from analysis result of multivariate and GLMMDs got 0,000 significant score and very high of MD.

outdoor learning; project; local wisdom; pembelajaran fisika

Agung, L. (2015). The development of local wisdom-based social science learning model with Bengawan Solo as the learning source. American International Journal of Social Science, 4, 51-58. Arikunto, S. (2006). Dasar-dasar evaluasi pendidikan. Jakarta: Bumi Aksara. Banks, J.A. (2006). Race, Culture, and education. USA & Canada: Routledge. Bond, T.G. & Fox, Ch.M. (2007). Applying the rasch model: fundamental measurement in the human sciences. 2nd ed. Mahwah, New Jersey: Lawrence Erlbaum Associates, Publishers. Chodijah, S., Fauzi, A., & Wulan, R. (2012). Pengembangan model pembelajaran fisika menggunakan model guided inquiry yang dilengkapi penilaian portofolio pada materi gerak melingkar. Jurnal Penelitian Pembelajaran Fisika, 1, 1-19. Farida, A., Rois, S., & Ahmad, E.S. (2012). Sekolah yang menyenangkan; metode kreatif mengajar dan pengembangan karakter peserta didik. Bandung: NUANSA. Guney, B.G., & Hayati, S. (2012). The use of history of science as a cultural tool to promote students’ empathy with the culture of science. Educational Science: Theory & Practice, 12, 533-539. Helle, L., Tynjälä, P., & Olkinuora, E. (2006). Project-based learning in post-secondary education-theory, parctice and rubber sling shots. Higher Education Springer, 51, 287-314. Holubova, R. (2008). Project-based physics-physics teacher training course: physics teacher for the 21st century. The International Journal of Learning, 15, 253-263. Ibrahim, B., Buffler, A., & Lubben, F. (2009). Profiles of freshman physics students’ views on the nature of science. Journal of Research in Science Teaching, 46, 248-264. Johnson, R.A., & Wichern, D.W. (2002). Applied multivariate statistical analysis. (5thed.). New Jersey: Pearson Education. Kanhadilok, P., & Watts, M. (2013). Western science and local thai wisdom: using museum toys to develop bi-gnosis. Canadian Journal of Science Mathematics and Technology Education, 13, 33-48. Khusniati, M. (2014). Model pembelajaran sains berbasis kearifan lokal dalam menumbuhkan karakter konservasi. Indonesian Journal of Conservation, 3,67-74. Kiswanto, H., & Amin, S. M. (2012). Pengembangan media pembelajaran interaktif berbantuan komputer pada materi dimensi tiga. Jurnal Mahasiswa didik Teknologi Pendidikan, 1, 1-8. Lai, H. C., Chang, C. Y., Li, W. S., & Wu, Y.T. (2013). The implementation of mobile learning in outdoor education: application of QR codes. British Journal of Educational Technology, 44, 57-62. Lan, B.L. (2011). Design projects in first-year physics. Journal Physics Education, 5, 514-516. Lawshe, C.H. (1975). A quantitative approach to content validity. Personal Phychology, 28, 563-575. Rogers, A., & Mark K.S. (2012). Learning through outdoor experience a guide for schools and youth groups. New York: Yarn. Seattha, P., Yuenyong, C., & Art-in, S. (2015). Developing STS circular motion unit for providing students’ perception of the relationship between science technology engineering and mathematics. Mediterranean Journal of Social Sciences, 6, 268-275. Stevens, J.P. (2009). Applied multivariate statistics for the soocial science. New York: Routledge. Suastra, I.W. (2010). Model pembelajaran sains berbasis budaya lokal untuk mengembangkan kompetensi dasar sains dan nilai kearifan lokal di SMP. Jurnal Pendidikan dan Pendidikan, 43, 8-16. Sudijono, A. (2012). Pengantar statistik pendidikan. Jakarta: Raja Grafindo Persada. Susetyo, B. (2008). Pengembangan model pembelajaran fisika berbasis empat pilar pendidikan melalui outdoor-inquiry untuk menumbuhkan kebiasaan bekerja ilmiah. Tesis, tidak diterbitkan, Universitas Negeri Semarang, Semarang. Thiagarajan, S., Semmel, D., & Semmel, M. I. (1974). Instructional developmnet for training teachers of expectional children: a sourcebook. Indiana: Eric. Veletsianos, G., Miller, B. G., Eitel, K. B., Eitel, J.U.H., Hougham, R.J., & Hansen, D. (2015). Lesson learned from the design and development of technology-enhanced outdoor learning experiences. Associations for Educational Communication and Technology, 59, 78-86. Wagiran. (2011). Pengembangan model pendidikan kearifan lokal dalam mendukung visi pembangunan provinsi daerah istimewa yogyakarta 2020 (tahun kedua). Jurnal Penelitian dan Pengembangan, 3, 85-100. Wagiran. (2012). Pengembangan karakter berbasis kearifan lokal hamemayu hayuning bawana. Jurnal Pendidikan Karakter, 2, 329-339. Widhiarso, W. (2005). Mengestimasi reliabilitas. Yogyakarta: Fakultas Psikologi UGM. Widhiarso, W. (2011). Aplikasi anava campuran untuk desain eksperimen pre-post test design. Yogyakarta: Fakultas Psikologi UGM. Wulandari, W.T., & Mundilarto. (2016). Pengembangan perangkat pembelajaran fisika aktif tipe learning tournament berbasis local wisdom. Jurnal Cakrawala Pendikan, 3, 365-377. Yusmaridi, Y., Ratnawulan, R., & Fauzi, A. (2012). Penerapan metode resitasi berwawasan lingkungan dalam pembelajaran kooperatif untuk meningkatkan kompetensi belajar fisika peserta didik SMP Negeri 2 Padang. Jurnal Penelitian Pembelajaran Fisika, 1, 1-10.