Measurement of Physics Problem-Solving Skills in Female and Male Students by PhysTeProSS
Abstract
Problem-solving skills in physics (PSSP) are essential in 21st-century life, and it is no exception for senior high school students; therefore, assessment has to be done in the senior high school. The study aimed at (1) describing students’ PSSP and (2) comparing the PSSP between female and male students. A total of 466 students were selected, 290 female and 176 male, as research participants selected by stratified random sampling from low, moderate, and high scores of the national physics examination. To measure the students’ problem-solving skill levels, the PhysTeProSS test was administered. The data were polytomous in four categories and were analyzed by the partial credit model (PCM). The results showed that the students’ level of PSSP was dominantly at the moderate type (48.28%) and the high and very high level are at 27.43 %. In other words, female students showed a higher level of PSSP than male students.Â
Keywords
Full Text:
PDFReferences
Ajai, J., & Imoko, B. (2015). Gender Differences in Mathematics Achievement and Retention Scores: A Case of Problem-Based Learning Method. International Journal of research in Education and Science, 1(1), 45-50.
Azwar, S. (2012). Reliabilitas dan Validitas. Yogyakarta: Pustaka Pelajar.
Bancong, H. & Subaer. (2013). Profil Penalaran Logis Berdasarkan Gaya Berpikir dalam Memecahkan Masalah Fisika Peserta Didik. Jurnal Pendidikan IPA Indonesia, 2(2), 195–202.
Black, P., & Wiliam, D. (2009). Developing the Theory of Formative Assessment. Educational Assessment, Evaluation and Accountability (formerly: Journal of Personnel Evaluation in Education), 21(1), 5-31.
Close, S., & Shiel, G. (2009). Gender and PISA Mathematics: Irish Results in Context. European Educational Research Journal, 8(1), 20-33.
Collette, A. T., & Chiappetta, E. L. (1984). Science Instruction in the Middle and Secondary Schools. The CV Mosby Company, 11830 Westline Industrial Drive, St. Louis, MO 63146.
De Cock, M. (2012). Representation Use and Strategy Choice in Physics Problem Solving. Physical Review Special Topics-Physics Education Research, 8(2), 020117.
Dede, C. (2010). Comparing Frameworks for 21st Century Skills. 21st Century Skills: Rethinking How Students Learn, 20, 51-76.
Dinica, M., Dinescu, L., Miron, C., & Barna, E. S. (2014). Formative Values of Problem Solving Training in Physics. Rom. Rep. Phys, 66(4), 1269-1284.
Eggen, P. D., Kauchak, D. P., & Garry, S. (2004). Educational Psychology: Windows on Classrooms. Upper Saddle River, NJ: Pearson/Merrill Prentice Hall.
Eraikhuemen, L., & Ogumogu, A. E. (2014). An Assessment of Secondary School Physics Teachers Conceptual Understanding of Force and Motion in Edo South Senatorial District. Academic Research International, 5(1), 253–262.
Eseryel, D., Law, V., Ifenthaler, D., Ge, X., & Miller, R. (2014). An Investigation of the Interrelationships Between Motivation, Engagement, and Complex Problem Solving in Game-Based Learning. Journal of Educational Technology & Society, 17(1), 42-53.
Etkina, E., Karelina, A., Murthy, S., & Ruibal-Villasenor, M. (2009). Using Action Research to Improve Learning and Formative Assessment to Conduct Research. Physical Review Special Topics-Physics Education Research, 5(1), 010109.
Fenemma, E & Leder, G.S. (Eds). 1990. Mathematics and Gender. New York: Teacher College Press.
Gronlund, N. E. (1998). Assessment of Student Achievement. Allyn & Bacon Publishing, Longwood Division, 160 Gould Street, Needham Heights, MA 02194-2310; tele.
Helaiya, S. (2010). Development and Implementation of Life Skills Programme for Student Teachers. Vadodara: Maharaja Sayaji Rao University of Baroda.
Istiyono, E., Mardapi, D., & Suparno, S. (2014). Pengembangan Tes Kemampuan Berpikir Tingkat Tinggi Fisika (Pysthots) Peserta Didik SMA. Jurnal Penelitian dan Evaluasi Pendidikan, 18(1), 1-12.
Kemendikbud & OEDC. (2013). Peraturan Menteri Pendidikan dan Kebudayaan RI Nomor 66 Tahun 2013. Jakarta.
Kikuchi, K. (2009). Listening to Our Learners’ Voices: What Demotivates Japanese High School Students?. Language Teaching Research, 13(4), 453-471.
Leak, A. E., Rothwell, S. L., Olivera, J., Zwickl, B., Vosburg, J., & Martin, K. N. (2017). Examining Problem Solving in Physics-Intensive Ph. D. Research. Physical Review Physics Education Research, 13(2), 020101.
Madu, B. C., & Orji, E. (2015). Effects of Cognitive Conflict Instructional Strategy on Students’ Conceptual Change in Temperature and Heat. SAGE Open, 5(3), 1—9.
Mardapi, D. (2008). Teknik Penyusunan Instrumen Test dan Non-Tes. Yogyakarta: Mitra Cendikia.
Maulana, R., Helms-Lorenz, M., & van de Grift, W. (2015). Pupils’ Perceptions of Teaching Behaviour: Evaluation of an Instrument and Importance for Academic Motivation in Indonesian Secondary Education. International Journal of Educational Research, 69(2015), 98-112.
McPeck, J. E. (2016). Critical Thinking and Education. London: Routledge.
Miedijensky, S., & Tal, T. (2016). Reflection and Assessment for Learning in Science Enrichment Courses for the Gifted. Studies in Educational Evaluation, 50(2016), 1-13.
Muraki, E., & Bock, R. D. (1997). PARSCALE 3: IRT Based Test Scoring and Item Analysis for Graded Items and Rating Scales. Chicago: Scientific Software.
Nadapdap, A. T. Y., & Istiyono, E. (2017). Developing Physics Problem-Solving Skill Test for Grade X Students of Senior High School. REiD (Research and Evaluation in Education), 3(2), 114-123.
Nurita, T., Hastuti, P. W., & Sari, D. A. P. (2017). Problem-Solving Skill of Science Students in Optical Wave Courses. Jurnal Pendidian IPA Indonesia, 6(2), 341—345.
OECD (2012). PISA 2012 Assessment and Analytical Framework. Mathematics, Reading, Science, Problem Solving and Financial Literacy. Paris: OECD Publishing.
Ostini, R., & Nering, M. L. (2006). Polytomus Item Response Theory Model. London: SAGE Publications.
Piaget, J. (2005). The Psychology of Intelligence (Electronic Version). Taylor & Francis.
Riantoni, C., Yuliati, L., Mufti, N., & Nehru, N. (2017). Problem Solving Approach in Electrical Energy and Power on Students as Physics Teacher Candidates. Jurnal Pendidikan IPA Indonesia, 6(1), 55-62.
Robbins, S., & DeCenzo, D. (2005). Fundamentals of Human Resource Management. Pearson Education.
Sudjana, N. (1990). Penilaian Hasil Belajar Mengajar. Bandung: PT Remaja Rosdakarya.
Sujarwanto, E., Hidayat, A., & Wartono, W. (2014). Kemampuan Pemecahan Masalah Fisika pada Modeling Instruction pada Siswa SMA Kelas XI. Jurnal Pendidikan IPA Indonesia, 3(1), 65–78.
TIMSS & PIRLS. (2011). International Study Centre [Online] Retrieved from https://www.oecd.org/pisa/46643496.pdf.
Walker, A., & Leary, H. (2009). A Problem Based Learning Meta Analysis: Differences across Problem Types, Implementation Types, Disciplines, and Assessment Levels. Interdisciplinary Journal of Problem-based Learning, 3(1), 6-28.
Wartono, W., Suyudi, A., & Batlolona, J. R. (2018). Students’ Problem Solving Skills of Physics on the Gas Kinetic Theory Material. Journal of Education and Learning, 12(2), 319-324.
Wilson, K., Low, D., Verdon, M., & Verdon, A. (2016). Differences in Gender Performance on Competitive Physics Selection Tests. Physical Review Physics Education Research, 12(2), 1-16.
Refbacks
- There are currently no refbacks.