Problem Based Learning Implementation to Increase The Students’ Conceptual Understanding of Elasticity

Muhammad Reyza Arief Taqwa(1*), Lugy Rivaldo(2), Revnika Faizah(3)

(1) Malang State University
(2) Universitas Jambi
(3) Universitas Negeri Yogyakarta
(*) Corresponding Author

Abstract


This study aims to determine the effectiveness of the implementation of problem based learning in elasticity and Hooke's law. The design of this study is the Embedded Experimental Model with a mixed method approach. Implementation was carried out at SMAN 5 Jambi in 34 students of Class XI IPA in the 2018/2019 school year. From the results of the analysis obtained there was an increase in conceptual understanding scores from 42.31 at pretest became 57.01 at posttest. The results of different tests using paired sample t-test were obtained t = - 4,901 (sig. 0,000) so it can be concluded that the pretest and posttest scores is differ significantly. Obtained the value of N-gain = 0.255 and effect size (d) = 0.930 shows an increase in the medium category and there is the influence of the implementation of the problem based learning model that is strong enough to increase understanding of students' concepts. Although students and teachers experience obstacles in implementing problem based learning learning models, this learning must continue to be carried out with improvement so students are accustomed to construct their own knowledge.


Keywords


Problem Based Learning, conceptual understanding, elasticity

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References


Adair, A. M. (2013). Student misconceptions about newtonian mechanics: Origins and solutions through changes to instruction. ProQuest Dissertations and Theses, 204. Retrieved from https://search.proquest.com/docview/1647196143?accountid=15272

Aguirre, J. M. (1988). Student preconceptions about vector kinematics. The Physics Teacher, 26(4), 212–216. https://doi.org/10.1119/1.2342490

Aguirre, J. M., & Rankin, G. (1989). College students’ conceptions about vector kinematics. Physics Education, 24(5), 290–294. https://doi.org/10.1088/0031-9120/24/5/310

Agustin, V. N. (2013). Peningkatan aktivitas dan hasil belajar siswa melalui model problem based learning (PBL). Journal of Elementary Education, 2(4), 36–44.

Antwi et al. (2011). Students’ understanding of some concepts in introductory mechanics course: A study in the first year university students , UEW, 1(1), 55–80.

Azizah, R., Yuliati, L., & Latifah, E. (2015). Kesulitan pemecahan masalah fisika pada siswa SMA. Jurnal Penelitian Fisika Dan Aplikasinya (JPFA), 5(2), 44–50. https://doi.org/10.26740/jpfa

Baksir, E. L., Mayub, A., & Hanisa, P. D. (2017). Peningkatan aktivitas dan hasil belajar siswa serta kemampuan pemecahan masalah melalui model problem based learning pada konsep cahaya di kelas VIII.E SMPN 6 Kota Bengkulu. Jurnal Pembelajaran Fisika, 1(1), 64–72.

Bao, L. (2006). Theoretical comparisons of average normalized gain calculations. American Journal of Physics, 74 (10), 917–922. https://doi.org/10.1119/1.2213632

Berek, F. X., Sutopo, S., & Munzil, M. (2016). Concept enhancement of junior high school students in hydrostatic pressure and archimedes law by predict-observe-explain strategy. Jurnal Pendidikan IPA Indonesia, 5(2), 230–238. https://doi.org/10.15294/jpii.v5i2.6038

Bernardi, R. A. (1994). Validating research results when cronbach’s alpha is below 0.70: A methodological procedure. Educational and Psychological Measurement, 54(3), 766–775.

Bezen, S., Bayrak, C., & Aykutlu, I. (2016). Physics teachers’ views on teaching the concept of energy. Eurasian Journal of Educational Research, (64), 109–124.

Close, H. G., Gomez, L. S., & Heron, P. R. L. (2013). Student understanding of the application of Newton’s second law to rotating rigid bodies. American Journal of Physics, 81(6), 458–470. https://doi.org/10.1119/1.4797457

Creswell, J. W. (2014). Research Design: Qualitative, Quantitative, and Mixed Methods Approaches (4th ed.). London: Sage Publication Ltd.

Docktor, J. L., & Mestre, J. P. (2014). Synthesis of discipline-based education research in physics. Physical Review Special Topics - Physics Education Research, 10(2), 1–58. https://doi.org/10.1103/PhysRevSTPER.10.020119

Hake, R. R. (1998). Interactive-engagement versus traditional methods: A six-thousand-student survey of mechanics test data for introductory physics courses. American Journal of Physics, 66(1), 64–74. https://doi.org/10.1119/1.18809

Hammer, D. (2000). Student resources for learning introductory physics. American Journal of Physics, 68(S1), S52–S59. https://doi.org/10.1119/1.19520

Hidayati, N. F., Akhsan, H., & Syuhendri. (2014). Identifikasi miskonsepsi siswa kelas X pada materi elastisitas dan hukum Hooke di SMA Negeri 1 Indralaya. Jurnal Inovasi Dan Pembelajaran Fisika, 3(2), 1–9.

Janti, S. (2014). Analisis validitas dan reliabilitas dengan skala likert terhadap pengembangan SI/TI dalam penentuan pengambilan keputusan penerapan strategi planning pada industri garmen. In Seminar Nasional Aplikasi Sains dan Teknologi (SNAST) (Vol. 3, pp. A155–A160). https://doi.org/1979-911X

Jugueta, E. A. D., Go, C. K. C., & Indias, J. M. M. (2012). Free fall misconceptions : A comparison between science and non-science university majors. Latin American Journal Physics Education, 6(Supplemento I), 2–5.

Kaniawati, I. (2017). Pengaruh simulasi komputer terhadap peningkatan penguasan konsep impuls-momentum siswa SMA. Jurnal Pembelajaran Sains, 1(1), 24–26.

Kartika, M. D., Santyasa, W., & Warpala, W. (2014). Pengaruh model pembelajaran berbasis masalah. E-Journal Program Pascasarjana Universitas Pendidikan Ganesha, 4(1).

Leech, N. L., Barrett, K. C., & Morgan, G. A. (2005). SPSS For Intermediate Statistics: Use and Interpretation (Second). London: Lawrence Erlbaum Associates.

Maryati, I. (2018). Penerapan model pembelajaran berbasis masalah pada materi pola bilangan di kelas VII Sekolah Menengah Pertama. Jurnal Mosharafa, 7(1), 63–74. Retrieved from http://e-mosharafa.org/index.php/mosharafa/article/view/mv7n1_7

Prasetyanti, N. M., Sari, D. N., & Sajidan, S. (2016). Penerapan model pembelajaran problem based learning (PBL) untuk meningkatkan kemampuan proses berpikir kognitif siswa kelas XI MIPA-1 SMA Negeri 3 Surakarta Tahun Pelajaran 2015/2016. INKUIRI: Jurnal Pendidikan IPA, 5(2), 1–7.

Rimoldini, L. G., & Singh, C. (2005). Student understanding of rotational and rolling motion concepts. Physical Review Special Topics - Physics Education Research, 1(1). https://doi.org/10.1103/PhysRevSTPER.1.010102

Robinson, S. J. (2014). Connecting the mathematical and conceptual views of angular momentum. Physics Education, 49(2), 144–148. https://doi.org/10.1088/0031-9120/49/2/144

Saifullah, A. M., Sutopo, S., & Wisodo, H. (2017). Senior high school students’ difficulties in solving impulse and momentum problems. Jurnal Pendidikan IPA Indonesia, 6(1), 1–10. https://doi.org/10.15294/jpii.v6i1.9593

Saputri, D. E., Taqwa, M. R. A., Aini, F. N., Shodiqin, I., & Rivaldo, L. (2019). Pemahaman konsep mekanika: menentukan arah percepatan pendulum, sulitkah? Jurnal Pendidikan Fisika Dan Teknologi, 5(1), 110–117.

Setyorini, U., Sukiswo, S. E., & Subali, B. (2011). Penerapan model problem based learning untuk meningkatkan kemampuan berpikir kritis siswa SMP. Jurnal Pendidikan Fisika Indonesia, 7, 52–56. https://doi.org/10.15294/jpfi.v7i1.1070

Singh, C., & Rosengrant, D. (2016). Multiple-choice test of energy and momentum concepts, 607(2003). https://doi.org/10.1119/1.1571832

Sunaryo, Y. (2014). Model pembelajaran berbasis masalah untuk meningkatkan kemampuan berpikir kritis dan kreatif matematik siswa SMA Di Kota Tasikmalaya. Jurnal Pendidikan Dan Keguruan, 1(2), 41–51.

Suruchi, & Rana, S. S. (2014). Test item analysis and relationship between difficulty level and discrimination index of test items in an achievement test in biology. Paripex - Indian Journal of Research, 3(6), 56–58.

Taqwa, M. R. A., & Pilendia, D. (2018). Kekeliruan memahami konsep gaya. Apakah pasti miskonsepsi? Jurnal Inovasi Pendidikan Fisika Dan Integrasinya, 1 (2), 1–12.

Taqwa, M. R. A., Utami, Y. A., & Rivaldo, L. (2019). Pengembangan buku siswa elektronik berbasis android pada materi suhu dan kalor untuk persiapan ujian nasional SMA/MA. Jurnal Briliant: Jurnal Riset Dan KonseptualBriliant: Jurnal Riset Dan Konseptual, 4(1), 225–234.

Thornton, R. K., & Sokoloff, D. R. (1998). Assessing student learning of Newton’s laws: The force and motion conceptual evaluation and the evaluation of active learning laboratory and lecture curricula. American Journal of Physics, 66(4), 338–352. https://doi.org/10.1119/1.18863

Tyas, R. (2017). Kesulitan penerapan problem based learning dalam pembelajaran matematika. Jurnal Tecnoscienza, 2(1), 43–52.

Velly, D. (2017). Peningkatan aktivitas dan hasil belajar siswa melalui penerapan model problem based learning dalam pembelajaran fisika di kelas XI MIPA 1 SMA Negeri 12 Pekanbaru. Jurnal Geliga Sains, 5(2), 88–94.

White, B. Y. (1983). Sources of difficulty in understanding newtonian dynamics. Cognitive Science, 7(1), 41–65. https://doi.org/10.1016/S0364-0213(83)80017-2

Yulianawati, D., Muslim, Hasanah, L., & Samsudin, A. (2018). A case study of analyzing 11thgraders’ problem solving ability on heat and temperature topic. Journal of Physics: Conference Series, 1013(1), 0–7.




DOI: http://dx.doi.org/10.30998/formatif.v9i2.3339

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