Profile of Students Physics Problem Solving Skills and Problem Based Learning Implementation Supported by Website on Gas Kinetic Theory
Abstract
Abstract: Profile of students physics problem-solving skills and problem based learning implementation supported by website on gas kinetic theory. Objectives: To analyze physics problem solving skills as a consideration in the implementation of a website-based PBL model on kinetic theory of gases. Methods: The research subjects were 162 high school students in class XI in Madiun Regency based on purposive sampling. Data collection were using problem-solving skills test ACCES indicators, student questionnaires, physics teacher interviews. Data were analyzed descriptive qualitative. Findings: The level of problem-solving skills in the kinetic theory of gases is still low, 159 students in low category, 3 students in medium category. On average students only answered questions in the E-Execute the solution. Conclusion: Students are not used to solving questions with ACCES indicators. Students tend to learn by memorizing formulas. So, the website-based PBL model can be applied to improve students’ problem solving skills.
Keywords: Problem solving skills, Problem based learning, Gas kinetic theory.
Abstrak: Profil keterampilan pemecahan masalah fisika siswa dan pelaksanaan problem based learning berbasis website pada teori kinetik gas. Tujuan: Untuk menganalisis profil keterampilan pemecahan masalah fisika siswa sebagai pertimbangan dalam penerapan model PBL berbasis website pada materi teori kinetik gas. Metode: Subjek penelitian adalah 162 siswa SMA kelas XI di Kabupaten Madiun berdasarkan teknik purposive sampling. Instrumen penelitian yaitu instrumen tes kemampuan pemecahan masalah indikator ACCES, angket siswa dan wawancara guru fisika. Data dianalisis secara deskriptif kualitatif. Temuan: Tingkat keterampilan pemecahan masalah pada materi teori kinetik gas masih rendah, yaitu sebanyak 159 siswa dengan kategori rendah dan 3 siswa dengan kategori sedang. Dari hasil penelitian rata-rata siswa hanya menjawab soal pada kategori E-Execute the solution. Kesimpulan: Siswa belum terbiasa menyelesaikan soal keterampilan pemecahan masalah dengan indikator ACCES. Siswa cenderung belajar dengan menghafal rumus. Sehingga model PBL berbasis website dapat diterapkan untuk meningkatkan keterampilan pemecahan masalah siswa.
Kata kunci: Keterampilan pemecahan masalah, Problem based learning, Teori kinetik gas.
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Abtokhi, A., Jatmiko, B., & Wasis. (2021). Evaluation of self-regulated learning on problem-solving skills in online basic physics learning during the covid-19 pandemic. Journal of Technology and Science Education. 11(2), 541-555.
Ahmadi. (2004). Sociology of education. Jakarta: PT Rineka Cipta.
Aidah, S.N. (2020). Effective ways to apply learning methods and models, (pp. 53-109). Yogyakarta: Indonesian KBM Publisher.
Arisandi, R.F. (2021). The influence of teaching and learning process, learning motivation and campus learning environment on learning achievement. Journal of Effective Economics. 3(2), 1-8.
Ariesca, Y., Dewi, N.K., Setiawan, H. (2021). Analysis of teacher difficulties in online-based learning at elementary schools in maluk district. Unram Prospect Journal. 2(1), 20-25.
Ashar, H., & Hufaini, A.M.F. (2021). Identification of students' concept understanding ability on gas kinetic theory by using certainty of response index (CRI) in class xi SMA negeri 12 makassar. Al-Khazini Journal: Journal of Physics Education. 1(2), 113-119.
Asiyah., Topano, A., & Walid, A. (2021). The effect of problem based learning (pbl) on problem solving ability and cognitive learning outcomes of sma negeri 10 bengkulu city students. Educational: Journal of Educational Sciences. 3(3), 717-727.
Ayudha, C.F.H, & Setyarsih, W. (2021). Literature study: analysis of physics learning practices in high school to practice problem solving skills. Journal of Physics Education Undiksha. 11(1), 1-14.
Bakri, F., Muliyati, D., & Nurazizah, I. (2018). E-learning website based on module: learning materials of high school physics with discovery learning approach. Journal of Physics Education Forum. 3(1), 90-95.
Barra, W.N. (2018). identification of misconceptions of the kinetic theory of gases in class XI MA Nurul Ummah Yogyakarta. Proceedings of the Quantum National Seminar #25.
Diani, R., Yuberti, & Syarlisjiswan, M.R. (2018). Web-enhanced course based on problem based learning (PBL): development of interactive learning media for basic physics ii. Al-BiRuNi Scientific Journal of Physics Education. 7(1), 105-116.
Diani, R., Herliantari, H., Irwandani, I., Saregar, A., & Umam, R. (2019). Search, solve, create, and share (sscs) learning model: the impact on the students’ creative problem-solving ability on the concept of substance pressure. Jurnal Penelitian Fisika dan Aplikasinya.9(1), 65-77.
Fitriyani, A., Herlina F., Evendi E., Devy NK, & Mauliza F.(2021). The implementation of “teachers” (organizer teachers) concept to innovation of the discussion methods in thermodynamics course. Journal of Physics Education and Development. 7(1), 1-12.
Gredler, M.E. (2011). Learning and instruction: Theory and application. Jakarta: Kencana.
Ince, E. (2019). An Overview of problem solving studies in physics education. Journal of Education and Learning. 7(4), 191-200.
Indriyani., Ahied, M., & Rosidi, I. (2020). Application of the double loop problem solving (DLPS) learning model on students' problem solving ability on natural disaster materials. Luminous Journal: Scientific Research in Physics Education. 1(1), 8-19.
Ismawati, I., Mutia, N., Fitriani, N., & Masturoh, S. (2021). Development of web-based physics learning media using google sites on sound wave material. Schrodinger scientific journal of physics education students.2(2), 140-146.
Kurniyawati, Y., Mahmudi, A., & Wahyuningrum, E. (2019). The effectiveness of problem-based learning in terms of problem solving skills and mathematical learning independence. Journal of Mathematics Education Research. 6(1), 118-129.
Lestari, F., Hariyanto, A., & Handono, S. (2019). Implementation of physics learning using real and virtual laboratory activities to improve learning outcomes on the subject of gas kinetic theory. Journal of Physics Learning. 8(1), 32-39.
Lestari, N.A., & Deta, U. (2020). The correlation between physics problem-solving skills and metacognitive ability from collaboration of socratic dialogue-modeling instruction implementation. Journal of Physics: Conference Series. IOP Publishing, 1796.
Mardin, H., & Nane, L. (2020). Training on making and using google sites as a learning media for madrasah aliyah teachers throughout boalemo regency. Abdimas Gorontalo Journal. 3(2), 78-82.
Mashurin, A.H., Mubarok, H., Prahani, B.K. (2021). Profile of guided discovery learning implementation assisted by virtual lab and student's problem-solving skills on gas kinetic theory. Journal of Research and Development of Physics Education. 7(2), 131-144.
Meisaroh, S., Achmadi., & Prahani, B.K. (2020). Profile of students' problem-solving skills and the implementation of free inquiry model in senior high school. Scientific Journal of Physics Education. 8(2), 59-72.
Melinda, V., & Jatmiko, B. (2020). The validity of the problem based learning model learning device on the kinetic theory of gases. Journal of Physics Education Innovation. 9(1), 42-44.
Mukti, W.M., Puspita, Y.B., & Anggraeni, Z.D. (2020). Web-based physics learning media using google sites on static electricity materials. Journal of Physics Education Webinar 2020. 5(1), 51-59.
Mulyani, S., Efendi, R., & Ramalis, T.R. (2021). Characterization of physics problem solving skills test based on item response theory. Journal of Education and Physical Sciences. 1(1), 1-12.
Nelvianti., & Fitria, Y. (2020). Characteristics of problem based learning model assisted by e-learning portal home learning in thematic science learning. Pedagogia Journal of Educational Science. 18(2), 162-172.
Ningrum, M.C., Hariyono, E., & Maryuni, W. (2022). Implementation of problem based learning in VLP software assisted volunt physics learning on students' problem solving abilities. Budapest International Research and Critics Institute-Journal. 5(1), 4185-4193.
Palennari, M., Lasmi., & Rachmawaty.(2021). Student problem solving skills: a case study at SMA negeri 1 wonomulyo. Journal of Biology Education and Learning. 5(2), 1-9.
Prasetyo, U., Astuti, I.A.D., Dasmo., & Noor I.(2020). Development of web blog-based learning media on the concept of momentum and impulses. Schrodinger scientific journal of physics education students.1(2), 155-161.
Purnama., Nehru., Pujaningsih, F.B., & Riantoni C.(2021). Literature study of problem based learning models on students' problem solving ability. Edumaspul Journal. 5(2), 272-277.
Putra, A.P., Rochman, C., Setya, W. (2020). Improved mastery of physics concepts using phet virtual virtual laboratory material for the kinetic theory of gases. Journal of Teaching and Learning Physics. 5(2), 80-86.
Putriyanti., & Ramalis, T.R.(2021). Characterization of physics problem solving skills test based on item response theory. Journal of Education and Physical Sciences. 1(1), 1-12.
Rachmawati, E., Prodjosantoso, A.K., and Wilujeng, I. (2019). Next generation science standard in science learning to improve student's practice skills. International Journal of Physic Research and Its Applications. 9(2), 178-188.
Ramli, Z., Sunaryo., & Serevina, V. (2019). E-book static fluid and dynamic fluid web-based with a problem-based learning model to improve students physics problem-solving skills.Journal of Physics:Conference Series, IOP Publishing. Series 012002, 2-8.
Rikani, R., Istiqomah, I., & Taufiq, I. (2021). Development of google sites-based mathematics learning media on three-variable linear equation system material. Proceedings of the National Seminar on Mathematics and Mathematics Education 6, 54-61.
Safithri, R., Syaiful, & Huda, N. (2021). The Effect of Problem Based Learning (PBL) and Project Based Learning (PjBL) on Problem Solving Ability Based on Students' Self Efficacy. Scholar's Journal :Journal of Mathematics Education. 5(1), 335-346.
Sari, Y.I., Sumarmi., Utomo, D.H., & Astina, I.K. (2021). The effect of problem based learning on problem solving and scientific writing skills.International Journal of Instruction. 14(2), 11-26.
Serway, R.A., & Jewett, J.W. (2014) Physics, for Scientists and Engineer with Modern Physics, Ninth Edition. New York: Cengage Learning.
Setyowidodo, I., Pramesti, Y.S., Handayani, A.D. (2018) Problem Based Learning : The Effect of Real Time Data on The Website to Student Independence. Journal of Physics : Conference Series IOP Publishing. Series 1013, 1-5.
Shabrina, A., & Diani, R. (2019). Development of physics learning media based on web enhanced course with guided inquiry model. Indonesian Journal of Science and Mathematics Education. 2(1), 9-16.
Suhardiman., Purnama, E., Hasanah, U., Hidayat, Y., & Azhar, H. (2021). Meta-analysis of problem based learning (pbl) learning models in physics learning. Journal of Physics Education. 9(1), 25-32.
Sukariasih, L., Tangang, L., Nursalam, LO, & Fiyanto, S. (2020). Description of physics problem-solving in the topic of static fluid: Case study of physics education in Halu Oleo University. Universal Journal of Educational Research. 8(10), 4568 – 4579.
Suyati, E., & Rozikin, A. (2021). Study & learning.Bandung : Widina Bhakti Persada.
Suyidno, Susilowati, E., Arifuddin, M., Misbah, Sunarti, T., Dwikoranto. (2019). Increasing students' responsibility and scientific creativity through creative responsibility based learning. Journal of Physics Research and Its Applications. 9(2), 178-188.
Tayubi, Y.R. (2005). Identifying misconceptions in physics concepts using certainty of response index (CRI). Journal of the Indonesian University of Education. 3 (24), 4-9.
Teodorescu, R., Bennhold, C.,, Feldman, G & Medsker, L. (2013).A new approach to analyzing physical problems: a taxonomy of introductory problems to physics. The American Physical Society.
Winarsih, E., Wibowo, F.C., & Rustana, C.E. (2022). Design of newton's law teaching materials based on wix website to practice argumentation skills for high school students. Proceedings of the SNF 2021 National Physics Seminar (E-Journal). 10(1), 1-10.
Yusal, Y., Suhandi, A., Setiawan, W., & Kaniawati, I. (2021). Increasing the level of understanding of the concept of kinetic gas theory of physics teacher prospective students through the interactive demonstration method with the help of various visual media. Journal of Physics Education Innovation and Scientific Research. 5(1), 27-32.
Zahra, Y., & Suprapto, N. (2021). Analysis of the quality of four-tier diagnostic test instruments to identify students' conceptual profiles on the kinetic theory of gases. Journal of Physics Education Innovation, 8(3), 1-5.
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