Keywords
kemampuan inkuiri; mata pelajaran fisika SMA; Penilaian kinerja
Document Type
Article
Abstract
Penelitian ini bertujuan mengembangkan instrumen penilaian kinerja kemampuan inkuiri mata pelajaran fisika peserta didik SMA. Instrumen terdiri atas empat paket perangkat tes yang masing-masing terdiri atas 30 butir tes termasuk 9 butir bersama yang telah divalidasi oleh ahli pendidikan fisika, ahli fisika, ahli pengukuran, dan praktisi. Instrumen diujicobakan pada 2015 peserta didik. Model respon butir politomus empat kategori digunakan untuk menganalisis data hasil uji coba menurut Partial Credit Model (PCM). Hasil penelitian menunjukkan bahwa, berdasarkan kriteria batas terendah dan tertinggi mean INFIT MNSQ, yaitu 0,77 dan 1,30 butir tes semuanya fit dengan model PCM. Tingkat kesulitan butir-butir tes berada pada rentang antara -0,83 sampai +0,84 yang berarti butir-butir tes dalam kategori baik karena nilainya di antara -2,0 dan +2,0. Fungsi informasi total tes relatif tinggi untuk kemampuan antara -2,5 sampai +2,5. Dengan demikian, instrumen yang dikembangkan dapat digunakan untuk meng-ukur kemampuan inkuiri mata pelajaran fisika siswa SMA. Hasil pengukuran menunjukkan bahwa kemampuan inkuiri peserta didik pada mata pelajaran fisika SMA di DIY berada di atas kemampuan rata-rata.
Kata kunci: kemampuan inkuiri, mata pelajaran fisika SMA, Penilaian kinerja.
______________________________________________________________
DEVELOPING ASSESSMENT INSTRUMENT OF THE PERFORMANCE OF THE INQUIRY ABILITIES IN PHYSICS SUBJECT OF HIGH SCHOOL STUDENTS Abstract The research was to develop an assessment instrument of performance for the inquiry ability of physic subject of senior high school students. The instrument consisted of four package sets of test and each of the sets consisted of 30 test items, including 9 items that had been validated by the expert of physic education, the expert of physic, the expert of measurement and the practitioner. The instrument was tested to 2,015 learning participants. The four-category politomous item response model was implemented for the data analysis of the experiment results according to the Partial Credit Model (PCM). The results of the research showed that based on the criteria of the lowest benchmark and the highest benchmark of mean INFIT MNSQ, was 0.77 and 1.30, all of the test items had been fit with the PCM model. The difficulty level of the test items was between -0.83 and +0,84 which implied that the test items belonged to the good category because the value of the test items was between -2.0 and +2.0. The informative function of the total tests was relatively high for ability between -2.5 to +2.5. Thereby, the instrument developed can be used for measuring the inquiry ability of the physic subject of the senior high school students. The results of measurement showed that the inquiry ability of the learning participants in physic subject within the senior high schools in DIY was above average.
Keywords: inquiry ability, physic subject in senior high schools, performance assessment
First Page
96
Last Page
108
Issue
1
Volume
19
Digital Object Identifier (DOI)
10.21831/pep.v19i1.4560
Recommended Citation
Supahar, Supahar and Prasetyo, Zuhdan Kun
(2015)
"PENGEMBANGAN INSTRUMEN PENILAIAN KINERJA KEMAMPUAN INKUIRI PESERTA DIDIK PADA MATA PELAJARAN FISIKA SMA,"
Jurnal Penelitian dan Evaluasi Pendidikan: Vol. 19:
Iss.
1, Article 9.
DOI: 10.21831/pep.v19i1.4560
Available at:
https://scholarhub.uny.ac.id/jpep/vol19/iss1/9
References
Adams, R.J. & Khoo, Siek-Toon. (1996). Quest: The interactive test analysis system version 2.1. Camberwell, Victoria: The Australian Council for Educational Research.
Bryce, T.G.K, McCall, J., Mac Groger, J., Robertson, I.J., & Weston, R.A.J. (1990). Techniques for assessing process skill in practical science: teacher’s guide. Oxford: Heinemann Educational Books.
Chiappetta, E.L. & Koballa, T.R (2010). Science instruction in the middle and secondary schools. 7th ed. Pearson Education, Inc.
Depdikbud. (2014). Peraturan Menteri Pendidikan dan Kebudayaan No. 104 Tahun 2014 Tentang Penilaian hasil belajar oleh pendidik pada pendidikan dasar dan pendidikan menengah.
Glencoe Science. Performance assessment in the classroom. Glencoe McGraw-Hill. New York.
Hambleton, R.K. & Swaminathan, H. (1985). Item response theory. Boston: Kluwer Nijhoff Publishing.
Mardapi, D. (2012). Pengukuran, penilaian, dan evaluasi pendidikan. Yogyakarta: Nuha Litera.
Moyer, R.H, Hackett, J.K, & Everett, S.A. (2007). Teaching science as investigations modeling inquiry through learning cycle lessons. New Jersey: Pearson, Merrill Prentice Hall.
Oriondo, L.L. & Dallo-Antonio. (1998). Evaluating educational outcomes (test, measurement, and evaluation). 5th ed. Quezon City: REX Printing Company, Inc.
Rezba, R.J, Sparague, C.S., Fiel, R.L, Fuck, H.J., Okey, J.R., & Jaus, H.H. (1995). Learning and assessing science process skill. 3rd ed. Iowa: Kendall/Hunt Publishing Company.
Ruiz-Primo, M.A. & Shavelson, R.J. (1996). Rhetoric and Reality in science performance assessment: an update. Journal of research in science teaching, Vol.33.
Subali, B. (2009). Pengembangan tes pengukur keterampilan proses sains pola divergen mata pelajaran biologi SMA. Prosiding Seminar Nasional Biologi, Lingkungan dan Pembelajaran, jurusan Biologi, FMIPA UNY, 4 Juli 2009, 581-593.
Wenning, C.J. (2005). Implementing inquiry-based instruction in the science classroom: A new model for solving the improvement of practice problem. Journal of Physics Teacher Education Online, 2(4), May 2005.
Wenning, C.J. (2005). Levels of inquiry: Hierarchies of pedagogical practices and inquiry processes. Journal of Physics Teacher Education Online, 2(3), February 2005.