Abstract: In general, a test was developed based on classical test theory which had many weaknesses, therefore the test in this research was developed based on modern test theory (Item Response Theory). This study aimed to develop a Creative Thinking Skills test on physics lessons for Class X High School (PhysCreTHOTS) that eligible to be used based on modern test theory. This research was a development research using 4D model which involving 300 students of Class X High School in Gunung Kidul District of DIY. The scoring of test items using four categories of politomus scales and Partial Credit Model (PCM) techniques. The characteristics of the test consist of item match, reliability, difficulty level of item, information function and Standard Error of Measurement (SEM). The results showed that the instrument's reliability was 0.72. The entire test instrument is considered fit with PCM, with an INFIT MNSQ range of 0.93 to 1.10. The difficulty index of 63 items ranges from -1.06 to 1.04. Based on the information function and SEM it is known that the test instrument corresponds to the learner with a score of -1.8 to 3.0. The entire test is considered feasible to be used to measure Creative Thinking Skills in Physics lessons for high school X grade students.

Keyword: creative thinking skills, partial credit model, polytomus, physics

Pengembangan Tes Creative Thinking Skills Fisika SMA (Physcrethots)  Berdasarkan Teori Tes Modern

Abstrak: Pada umumnya tes dikembangkan berdasarkan teori tes klasik yang banyak kelemahannya, maka tes yang dikembangkan ini dilakukan berdasarkan teori tes modern (Item Rseponse Theory). Penelitian bertujuan untuk mengembangkan tes Creative Thinking Skills fisika Kelas X SMA (PhysCreTHOTS)  yang layak digunakan berdasarkan teori tes modern. Penelitian ini merupakan penelitian pengembangan menggunakan model 4D yang melibatkan 300 peserta didik Kelas X SMA di Kabupaten Gunung Kidul DIY. Penskoran item tes menggunakan skala politomus empat kategori dan menggunakan teknik Partial Credit Model (PCM). Karakteristik tes terdiri atas kecocokan item, reliabilitas, tingkat kesukaran item dan fungsi informasi dan Standard Error of Measurement (SEM). Hasil penelitian menyatakan bahwa realiabilitas instrumen sebesar 0,72. Keseluruhan instrumen tes dinyatakan fit dengan PCM, dengan rentang INFIT MNSQ 0,93 sampai 1,10. Indeks kesukaran 63 item (difficulty) antara -1,06 sampai 1,04. Berdasarkan fungsi informasi dan SEM diketahui bahwa instrumen tes sesuai dengan peserta didik berkemampuan dari -1,8 sampai 3,0. Keseluruhan tes dinyatakan layak digunakan untuk mengukur Creative Thinking Skills Fisika peserta didik kelas X SMA.

Kata kunci : creative thinking skills, partial credit model, politomus, fisika

Adams, R. J.,& Khoo, S. T. (1996). Quest: The interactive test analysis system version 2.1. Victoria: The Australian Council for Educational Reearch.

Aldig, Ebru & Arseven,. Ayla. 2017. The Contribution of learning outcomes for listening to creative thinking skills. Journal og=f education and learning vol 6. No. 3 http://doi.org/10.5539/jel.v6n3p41

Angell, C., Guttersrud., Henriksen, E. K., & Isnes, A. (2004). Physics: Frightful, but fun _ Pupils’ and Teachers’ Views of Physics and Physics Teaching. [online 23 Februari 2016]

Baker, J. G., Rounds, J. B., & Zeron, M. A. (2000). A comparison of graded response and rasch partial credit models with subjective wellbeing. Journal of Educational and Behavioral Statistic, 25(3), 253-270.

Binkley, M., Erstad, O., Herman, J., et al. (2012). Assessment and teaching of 21st century skills. Dordrecht, The Netherlands: Springer.

Brookhart, S. M. (2010). How to assess higher order thinking skills in your classroom. Alexandria: ASCD.

Bond, T. G., & Fox, C. M. (2007). Applying the rasch model: Fundamental measurement in the human sciences (2 nd ed.). Mahwah: Lawrence Erlbaum Associates, Publishers.Brown, H. D. (2004). Language Assessment: Principles and Classroom Practices. White Plains, NY: Pearson Education

Cangelosi. (1995). Merancang Tes Untuk Menilai Prestasi Siswa. Bandung : Penerbit ITB.

Daryanto. (2014). Pendekatan Pembelajaran Saintifik Kurikulum 2013. Yogyakarta: Penerbit Gava Media Guru.

De Ayala, R. J. 1993. “Methods, Plainly Speaking: An Introduction to Polytomus Item Response Theory Models”. Measurement and Evaluation in Counseling and Development, 25, 172-189.

Guilford, J. P. (1970). Creativity: Retrospect and Prospect. American Psychologist, 4,3, 149-168.

Hadi, S., & Handhika, J. (2015). Pembelajaran Fisika Menggunakan Modul Berbasis Scientific Approach Bermuatan Pendidikan Karakter Pada Materi Termodinamika. Prosiding Seminar Nasional Fisika dan Pendidikan Fisika, 6(1).

Hambleton, R. K., Swaminatha, H., & Rogers, H. J (1991). Foundamental of item response theory. Newbury Park, CA: Sage Publication Inc.

Hambleton, R.K., & Swaminathan, H. (1985). Item Respoonse Theory. Boston, MA: Kluwer Inc.

Istiyono, E., Mardapi, D., & Suparno. (2014). Pengembangan Tes Kemampuan Berpikir Tingkat Tinggi Fisika (PysTHOTS) peserta didik SMA. Jurnal Penelitian dan Evaluasi Pendidikan, 18(2), 1-12.

Klieger, Aviva & Sherman, Guy. 2015. Physics texbooks: do they promote or inhibit students’ creative thinking. Iopscience. http://iopscience.iop.org/0031-9120/50/3/305

Kowsalya, D. N. (2012). Development and Validation of a scale to asses self concept in mild intellecctualy disabled children. International journalsoc. Sci & Education.

Kubiszyn, T., & Borich, G. D. (2013) Educational Testing and Measurement: Classroom Application and Practice. Hoboken, NJ: Willey.

Liliawati, W (2011). Pembekalan Keterampilan Berpikir Kreatif Siswa Sma Melalui Pembelajaran Fisika Berbasis Masalah. Jurnal Pengajaran MIPA, 16, 93-98.

Loviza, U. (2010). Penggunaan Pendekatan Multi Representasi Pada Pembelajaran Konsep Gerak Untuk Meningkatkan Pemahaman Kosep dan Memperkeceil Kuantitas Miskonsepsi Pada Siswa SMP. Program Pacasarjana Universitas Pendidikan Indonesia. Bandung.

Marilyn. (2012). Defining Twenty-First Century Skills. Assessment and Teaching of 21st Century Skills. London: Springer.

Öztürk, M. (2007). Multiple-Choice Test Items of Foreign Language Vocabulary. Eğitim Fakültesi Dergisi, 20(2), 399-426.

Mitchell, B. M., Stueckle, A. F., & Willens, R. F. (1983). Planning for Creative Learning. Washington: Kendal/Hunt.

Rahayu, F., & Istiyono, E. (2017). The Development of Physics Creative Thinking Tests for X Grade in Senior High School and Its Characteristics. Proceeding of 5^th International Conference on Educational Research and Innovation. Yogyakarta: 8 - 9 May 2017.

Retnawati, Heri. (2014) Teori Respon Butir dan Penerapannya untuk Peneliti, Praktisi Pengukuran dan Pengujian, Mahasiswa Pascasarjana. Yogyakarta: Nuha Medika.

Sariono. (2014). Kurikulum 2013: Kurikulum Generasi Emas. E-Jurnal Dinas Pendidikan Kota Surabaya, 3.

Smith J K and Smith L F 2010 Educational creativity ed J C Kaufman and R J Sternberg The Cambridge Handbook of Creativity (New York: Cambridge University Press) pp 250–64

Stojanova B. 2010 Development of creativity as a basic task of the modern educational system Proc. Soc. Behav. Sci. 2 3395–400

Sumintono, B., & Widhiarso,W. (2009). Rasch Model metode pengukuran modern dalam ilmu-ilmu social. Cimahi: Trim Komunikata publishing House

Thiagarajan, S.S. D. S., & Semmel, M. I. (1974). Instructional Development for Training Teachers of Expectional Children. Minnesota: Leadership Training Institute/Special.

Tognolini, J., & Davidson, M. (Juli 2003). How do we operationalise what we value? Some technical chalenges in assessing higher order thinking skills. Makalah disajikan dalam the Natinaonal Roundtable on Assessment Conference pada bulan Juli 2003 di Darwin, Australia.

Torrance, E. P. (2006). Torrance Tests Of Creative Thinking: Technical-norms manual. Lexington, MA: Personnel Press.

Widhiarso, W. (2010). Aplikasi Teori Respon Item untuk Pemodelan Respons Menipu pada Skala Kepribadian. Laporan Hasil Penelitian, UGM.