Training High School Students' Science Process Skills Through Phet Media in the Inquiry Model on Elasticity Material
DOI:
10.29303/jossed.v5i2.9546Published:
2024-10-31Issue:
Vol. 5 No. 2 (2024): OctoberKeywords:
Science Process Skills, Phet Media, Model on Elasticity MaterialArticles
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Abstract
This study aims to train the science process skills of high school students through phet media in an inquiry setting on elasticity material. The sample of this study was 27 students of class XI MIA-3. This study uses quantitative and qualitative descriptive research types. The trial design uses one group pretest–posttest design. The instrument in this study is the Test Instrument, in this case to measure the increase in students' science process skills before and after treatment using the inquiry model and phet media. Data analysis in this study was carried out using quantitative descriptive analysis. The data analysis technique used is qualitative descriptive analysis including: the results of the science process skills test. The results showed an increase in science process skills with an average Ngain of 0.80 with a high category and the achievement of an increase in each science process skill indicator above 70%, so it can be concluded that the inquiry model and phet media can train the science process skills of SMA A class XI MIA-3 students on elasticity material
References
Andriani, N., & Nirmawan, N. (2022). The Influence of the Inquiry Learning Model in Writing Complex Procedure Texts on Grade XI Students. Prima Magistra: Scientific Journal of Education, 3(2), 180–187.https://doi.org/10.37478/jpm.v3i2.1471
Ansori, YZ (2020). Character Building of Students Through Integrated Learning in Elementary Schools. Jurnal Educatio FKIP UNMA, 6(1), 177–186. https://doi.org/10.31949/educatio.v6i1.308
Arikunto, S. (2010). Research Procedures: A Practical Approach. Jakarta: Rineka Cipta.
Astuti, TP (2019). Problem Based Learning Model with Mind Mapping in 21st Century Science Learning. Proceeding of Biology Education, 3(1), 64–73.https://doi.org/10.21009/pbe.3-1.9
Dolapcioglu, S., & Subası, M. (2022). The Relationship between Scientific Process Skills and Science Achievement: A Meta-Analysis Study. Journal of Science Learning, 5(2), 363–372. https://doi.org/10.17509/jsl.v5i2.39356
Ekawati, Y., Abdul Haris, & Hj. Bunga Dara Amin. (2020). Application of Simulation Media Using PHET (Physics Education And Technology) on Physics Learning Outcomes of Grade X Students of SMA Muhammadiyah Limbung. Journal Of Physics Education, Muhammaddiyah University Of Makassar, 3(1), 1–9. https://doi.org/https://doi.org/10.26618/jpf.v3i1.254
Fitriana, Kurniawati, Y., & Utami, L. (2019). Analysis of Students' Science Process Skills on Reaction Rate Material Through the Bounded Inquiry Laboratory Learning Model. Jurnal Tadris Kimiya, 4(2), 226-236.
Fitriani, R., Chen, D., Maryani, S., Aldila, FT, Aktapianti, A., Ginting, B., Sehab, NH, & Wulandari, M. (2021). Describing Students' Science Process Skills through Viscosity Practical Activities at SMAN 1 Muaro Jambi. PENDIPA Journal of Science Education, 5(2), 173–179. https://doi.org/https://doi.org/10.33369/pendipa.5.2.173-179
Hake, R.R. (1999). Analyzing Change/Gain Scores. Dept. of Physics Indiana University. Downloaded fromhttp://www.physics.indiana.edu
Hamdani, M., Prayitno, BA, Karyanto, P. (2019). Improving Critical Thinking Skills Through Experimental Methods. Proceeding Biology Education Conference, 16(1), 139 - 145.
Inayah Wardah Syafiqah, Arie Arma Arsyad, Ramlawati. (2024). Analysis of Science Process Skills of Grade VIII Students of A-Accredited Junior High Schools in Rappocini District. Journal of Education and Learning. 4(1)
Jaya, TD, Tukan, MB, & Komisia, F. (2022). Application of Guided Inquiry Approach to Train Students' Science Process Skills in Buffer Solution Material. Educativo: Journal of Education, 1(2), 359–366. https://doi.org/https://doi.org/10.56248/educativo.v1i2.44
Kurniansah, E., Masfuâ, S., & Roysa, M. (2023). Analysis of science process skills of grade 4 students of SD 03 Pecangaan in face-to-face learning. COLLASE (Creative of Learning Students Elementary Education), 6(1), 19-26.
Lincoln, Yvonna S & Egon G. Guba. (1985). Naturalistic Inquiry. California: Sage
Margono. (1997). Educational Research Methods. Jakarta: Rineka Cipta.
Murniati, M., Desti, MA, & Sriyanti, I. (2021). Analysis of Science Process Skills (Kps) of Prospective Physics Teacher Students at the Faculty of Teacher Training and Education, Sriwijaya University. Journal of Innovation and Physics Learning, 8(2), 208-217.
Nizar, M., Najib, M., Md-ali, R., & Yaacob, A. (2022). Effects of Phet Interactive Simulation Activities on Secondary School Students' Physics Achievement. South Asian Journal of Social Sciences & Humanities, 3(2), 73–88.https://doi.org/10.48165/sajssh.2022.32
Nurianto Ramadhani, A., & Herniati SDN Srondol Wetan, U. (2023). Application of Inquiry Learning Model Variation of Social Emotional Learning to Increase English Learning Motivation of Class 2 SDN Srondol Wetan 5 Semarang. Journal of Education and Social Sciences (JUPENDIS), 1(4), 29–40.https://doi.org/10.54066/jupendis.v1i3.861
Ouahi, M. Ben, Lamri, D., Hassouni, T., & Al Ibrahmi, E.M. (2022). Science teachers' views on the use and effectiveness of interactive simulations in science teaching and learning. International Journal of Instruction, 15(1), 277–292.https://doi.org/10.29333/iji.2022.1511
Parnawi, A., & Alfisyahrin, R. (2023). Application of Inquiry Learning Strategies in Improving Students' Intellectuals in Islamic Religious Education Learning. Berajah Journal, 3(1), 191–200.https://doi.org/10.47353/bj.v3i1.204
Pawestri, E., & Zulfiati, HM (2020). Development of Student Worksheets (LKPD) to Accommodate Student Diversity in Thematic Learning for Class II at Muhammadiyah Danunegaran Elementary School. TRIHAYU: Journal of Elementary School Education, 6(3).https://doi.org/10.30738/trihayu.v6i3.8151
Prabowo. (2011). Research Methodology (Science and Science Education). Surabaya: UNESA University Press
Rustaman, N., Dirdjosoemarto, S., Yudianto, SA, Achmad, Y., Subekti, R., Rochintaniawati, D., & Nurjhani, M. (2005). Biology Teaching and Learning Strategies. Malang: Um Press
Senisum, M., Susilo, H., Suwono, H., & Ibrohim. (2022). GIReSiMCo: A Learning Model to Scaffold Students' Science Process Skills and Biology Cognitive Learning Outcomes. Educ. Sci, 12(4), 228. https://doi.org/https://doi.org/10.3390/educsci12040228
Sideri, A., & Skoumios, M. (2021). Science Process Skills in the Greek Primary School Science Textbooks. Science Education International, 32(3), 231–236.https://doi.org/10.33828/sei.v32.i3.6
Sutrisna, Nana & Gusnidar. (2022). Development of Inquiry-Based Student Books on Science Material for Grade VIII Junior High School Students. Journal of Research Innovation. 2(8).
Sylviani, S. (2020). PhET Simulation as a Tool to Assist Elementary School Students in the Teaching and Learning Process of Mathematics Subjects. Multimedia Education Journal 2(1), 1-10.
Widodi, B., Darmaji, & Astalini. (2023). Identification of Science Process Skills and Creative Thinking Abilities of Students. Indonesian Journal of Science Education and Learning, 13(1), 1 - 8.
Wiratman, A., Widiyanto, B., & Fadli, M. (2021). Analysis of science process skills of elementary madrasah students during the Covid-19 pandemic. Bidayatuna: Journal of Elementary Madrasah Teacher Education, 4(2), 185–197. https://doi.org/https://doi.org/10.54471/bidayatuna.v4i2.948
Yalçınkaya-Önder, E., Zorluoğlu, S.L., Timur, B., Timur, S., Güvenç, E., Özergun, I., & Özdemir, M. (2022). Investigation of Science Textbooks in terms of Science Process Skills. International Journal of Contemporary Educational Research, 9(2), 432–449. https://doi.org/http://dx.doi.org/10.33200/ijcer.1031338
Author Biographies
Fryan Sopacua, Pattimura University
Venty Sopacua, Universitas Pattimura
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