The Effect of Multiple Representation-Based Guided Inquiry on Learning Outcomes Reviewed from Scientific Thinking Skills

Rendy Priyasmika

Abstract


This research's background is the importance of understanding the concept of chemical equilibrium material to understand the complex chemical interactions. This material is seen as one of the most difficult subjects in learning chemistry at the school and university level, so it requires a good understanding of studying it. A good and appropriate understanding of learning chemistry requires scientific thinking skills. This study aimed to analyze the effect of guided inquiry learning models based on multiple representations on student learning outcomes in chemical equilibrium material. The design of this study used a Pre-Experimental Design with a One-Shot Case Study model. The subjects in this study were 25 students of the Chemistry Education program at Billfath University who took the Basic Chemistry course. The data was collected using the Classroom Test of Scientific Reasoning (CTSR) instrument and test questions on the learning outcomes of chemical equilibrium material. The data analysis technique in this study used a non-parametric statistical test with a t-test. The results showed (1) the learning outcomes of students with high scientific thinking skills were higher than students with low scientific thinking skills, (2) there was a significant effect of the guided inquiry learning model based on multiple representations on student learning outcomes.


Keywords


Guided Inquiry; Multiple Representation; Learning Outcomes; Scientific Thinking Skills

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References


Bao, L. et al. (2009) ‘Physics: Learning and scientific reasoning’, Science, 323(5914), pp. 586–587. doi: 10.1126/science.1167740.

Chandrasegaran, A. L. and Treagust, D. F. (2009) ‘Emphasizing Multiple Levels of Representation To Enhance Students ’ Understandings of the Changes Occurring during Chemical Reactions’, Journal of Chemical Education, 86(12), pp. 1433–1436.

Demircioğlu, G., Demircioğlu, H. and Yadigaroğlu, M. (2013) ‘an Investigation of Chemistry Student Teachers’ Understanding of Chemical Equilibrium.’, International Journal on New Trends in Education & their Implications (IJONTE), 4(2), p. 185.

Derman, A. and Eilks, I. (2016) ‘Using a word association test for the assessment of high school students’ cognitive structures on dissolution’, Chemistry Education Research and Practice, 17(4), pp. 902–913. doi: 10.1039/c6rp00084c.

Devetak, I. et al. (2009) ‘Comparing Slovenian year 8 and year 9 elementary school pupils’ knowledge of electrolyte chemistry and their intrinsic motivation’, Chemistry Education Research and Practice, 10(4), pp. 281–290. doi: 10.1039/b920833j.

Patron, E, Wikman, S, Edfors, I B. Cederblad B, C. L. (2017) ‘Teachers ’ reasoning : Classroom visual representational practices in the context Emelie Patron 1’, Science Education, pp. 1–20. doi: 10.1002/sce.21298.

Fabby, C. and Koenig, K. (2015) ‘Examining the Relationship of Scientific Reasoning with Physics Problem Solving’, Journal of STEM E ducation, 16(4), pp. 20–26.

Fang, S. C. et al. (2016) ‘Investigating the effects of structured and guided inquiry on students’ development of conceptual knowledge and inquiry abilities: a case study in Taiwan’, International Journal of Science Education. Taylor & Francis, 38(12), pp. 1945–1971. doi: 10.1080/09500693.2016.1220688.

Goncher, A. et al. (2009) ‘Exploration and exploitation in engineering design: Examining the effects of prior knowledge on creativity and ideation’, Proceedings - Frontiers in Education Conference, FIE, (November 2009). doi: 10.1109/FIE.2009.5350620.

Herawati, R., Mulyani, S. and Redjeki, T. (2013) ‘Pembelajaran Kimia Berbasis Multiple Representasi Ditinjau Dari Kemampuan Awal Terhadap Prestasi Belajar Laju Reaksi Siswa Sma Negeri I Karanganyar Tahun Pelajaran 2011/2012’, Jurnal Pendidikan Kimia, 2(2), pp. 38–43.

Hanson, D.M. 2005. Designing Process-Oriented Guided-Inquiry Activities. In S. W. Bayerlein & D.K. Apple (Eds). IL: Pacific Crest.

Indriani, A., Suryadharma, I. B. and Yahmin , Y. (2017) ‘Identifikasi Kesulitan Peserta Didik Dalam Memahami Kesetimbangan Kimia’, J-PEK (Jurnal Pembelajaran Kimia), 2(1), pp. 9–13. doi: 10.17977/um026v2i12017p009.

Karpudewan, M. et al. (2015) ‘Investigating high school students’ understanding of chemical equilibrium concepts’, International Journal of Environmental and Science Education, 10(6), pp. 845–863. doi: 10.12973/ijese.2015.280a.

Kurniasih, D., Novia, H. and Jauhari, A. (2020) ‘Pengaruh Model Pembelajaran Inkuiri Terbimbing dengan Pendekatan Multirepresentasi Terhadap Penguasaan Konsep Fisika Siswa SMA’, Jurnal Pendidikan Fisika, 1(2), pp. 5–11.

Lawson, A. E. (2004) ‘The nature and development of scientific reasoning: A synthetic view’, International Journal of Science and Mathematics Education, 2(3), pp. 307–338. doi: 10.1007/s10763-004-3224-2.

Lazonder, A. W. and Harmsen, R. (2016) ‘Meta-Analysis of Inquiry-Based Learning: Effects of Guidance’, Review of Educational Research, 86(3), pp. 681–718. doi: 10.3102/0034654315627366.

Mensah, A. and Morabe, O. N. (2018) ‘Strategies Used by Grade 12 Physical Sciences Students in Solving Chemical Equilibrium Problems’, African Journal of Research in Mathematics, Science and Technology Education. Taylor & Francis, 22(2), pp. 174–185. doi: 10.1080/18117295.2018.1475908.

Nurbaeti, Nuryanti, S. and Pursitasari, D. (2015) ‘Kritis Dan Kemampuan Kognitif Siswa Pada Mata Pelajaran Kimia Di Kelas X Smkn 1 Bungku Tengah’, e-Jurnal Mitra Sains, 3(2), pp. 24–33. Available at: https://media.neliti.com/media/publications/153884-ID-hubungan-gaya-belajar-dengan-keterampila.pdf.

Özmen, H. (2008) ‘Determination of students ’ alternative conceptions about chemical equilibrium : a review of research and the case of Turkey’, Chemistry Education Research and Practice, 9, pp. 225–233. doi: 10.1039/b812411f.

Qureshi, S. et al. (2017) ‘Inquiry-Based Chemistry Education in a High-Context Culture: a Qatari Case Study’, International Journal of Science and Mathematics Education, 15(6), pp. 1017–1038. doi: 10.1007/s10763-016-9735-9.

Safitri, I., Kaniawati, I. and Rusnayati, H. (2020) ‘Penerapan Multirepresentasi Pada Pembelajaran Inkuiri Terbimbing Terhadap Penguasaan Konsep Dari Gaya Belajar’, Jurnal Pendidikan Fisika dan Teknologi, 6(2), p. 169. doi: 10.29303/jpft.v6i2.1870.

Steinberg, R. and Cormier, S. (2013) ‘Understanding and affecting science teacher candidates ’ scientific reasoning in introductory astrophysics’, Physical Review Special Topics - Physics Education Research, pp. 1–10. doi: 10.1103/PhysRevSTPER.9.020111.

Wijayadi, A. W. (2017) ‘Pengaruh Strategi Pembelajaran dan Kemampuan Berpikir Kritis Terhadap Hasil Belajar Sejarah Siswa SMA Negeri 72 Jakarta’, Jurnal Pendidikan Sejarah, 2(2), pp. 151–160. doi: 10.21009/jps.061.01.

Yildirim, N., Kurt, S. and Ayas, A. (2011) ‘The effect of the worksheets on students’ achievement in chemical equilibrium’, Journal of Turkish Science Education, 8(3), pp. 44–58.




DOI: http://dx.doi.org/10.30870/educhemia.v6i1.8985

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