KEEFEKTIFAN COLLABORATIVE PROBLEM SOLVING BERBASIS MULTIPLE INTELLIGENCES UNTUK MENINGKATKAN KETERAMPILAN BERPIKIR KRITIS

Abstrak

Penelitian ini bertujuan mengetahui keefektifan strategi Collaborative Problem Solving berbasis Multiple Intelligences (CPS-MI) dalam meningkatkan keterampilan berpikir kritis, kecerdasan logis matematis, dan penguasaan konsep kimia peserta didik, serta mengetahui hubungan antara berpikir kritis, kecerdasan logis matematis dengan penguasaan konsep kimia. Metode penelitian menggunakan desain pre-test-post test control group. Sampel terdiri atas 93 peserta didik kelompok eksperimen dan 90 peserta didik kelompok kontrol dari tiga SMA di Kota Banjarmasin yang dipilih melalui metode stratified random sampling. Kelompok eksperimen menerapkan strategi CPS-MI, sedangkan kelompok kontrol menerapkan pembelajaran konvensional. Instrumen penelitian menggunakan Watson Glaser Critical Thinking Appraisal Test, angket multiple intelligences, lembar observasi, dan tes penguasaan konsep Hidrolisis garam. Data penelitian dianalisis menggunakan teknik persentase, chi square test, Anava satu jalur, dan uji korelasi ganda. Hasil penelitian menunjukkan bahwa strategi CPS-MI efektif dalam meningkatkan keterampilan berpikir kritis, kecerdasan logis matematis dan penguasaan konsep kimia. Berdasarkan temuan ini strategi CPS-MI efektif diterapkan sebagai alternatif meningkatkan keterampilan berpikir kritis dan kecerdasan logis matematis peserta didik.

Abstract

This study was aimed at determining the effectiveness of Multiple Intelligences based Collaborative Problem-Solving (MI-CPS) strategy in improving students' critical thinking skills, mathematical logical intelligence, and chemical concept mastery, as well as knowing the relationship between critical thinking, mathematical logical intelligence, and chemical concept mastery. The study used a pretest-posttest control group design. The sample consisted of 93 experimental group students and 90 control group students from three high schools in Banjarmasin. The samples were selected through a stratified random sampling method. The experimental group applied the MI-CPS strategy, while the control group applied conventional learning. The instruments used were Watson Glaser Critical Thinking Appraisal Test, multiple intelligences questionnaire, observation sheet, and mastery test concept of salt hydrolysis. The research data were analyzed using percentage techniques, chi-square test, one-way ANAVA, and multiple correlation tests. The results show that the MI-CPS strategy is effective in improving critical thinking skills, mathematical logical intelligence, and mastery of chemical concepts. Based on these findings, the MI-CPS strategy is effectively applied as an alternative to improving students' critical thinking skills and mathematical logical intelligence.

Armstrong, T. (2004). Multiple intelligences in the classroom (2nd ed.). Virginia: Association for Supervision and Curriculum Development (ASCD).

Badru, A. K. (2015). Predicting Academic Success of Junior Secondary School Students in Mathematics through Cognitive Style and Problem Solving Technique. Journal of Education and Practice, 6(4), 72-78.

Brooks, J. G. & Brooks, M. G. (2001). In search of understanding: The case for constructivist classroom. Upper Saddle River, NJ: Merril.

Cathcart, W. G., Pothier, Y. M., Vance, J. H., & Bezuk, N. S. (2003). Learning mathematics in elementary and middle schools. Englewood Cliffs, N. J.: Merrill/Prentice Hall.

Docktor, J. L., Strand, N. E., Mestre, J., & Ross, B. H. (2015). Conceptual problem solving in high school physics. Physical Review Special Topics-Physics Education Research, 11(2), 106.

Durbam, C. (2006). Handy thinking tools to promote creative problem solving. Dalam A.-C. Ong & G. D. Borich, Teachng strategies that promote thinking (pp. 181-198). Singapore: Mc Graw Hill.

Fatimah, S., Kartika, I., & Niyartama, T. F. (2012, Mei). Pembelajaran fisika menggunakan model cooperative learning ditinjau dari prestasi belajar peserta didik. Jurnal Kependidikan: Penelitian Inovasi Pembelajaran, 42(1), 1-6.

Fisher, A. (2001). Critical thinking: An introduction. Cambridge: Cambridge University Press.

Gardner, H. (1993). Multiple intelligences. New York: Basic Books Hons of Learning Harper Collins Publ. Inc.

Glaser, W. (2019, March 22). Watson Glaser critical thinking appraisal. Assessment Day, Practice Test Expert. Diunduh dari https://www.assessmentday.co.uk/watson-glaser-critical-thinking.htm.

Hoerr, T. R. (2000). Becoming a multiple intelligences school. Virginia: Asso-ciation for Supervision and Curriculum Development (ASCD).

Jacobsen, D., Eggen., P., & Kauchak, A. D. (2009). Methods for teaching: Metode-metode pengajaran meningkatkan belajar peserta didik TK-SMA.(Terj: Achmad Fawaid & Khoirul).Yogyakarta: Pustaka Pelajar.

Karagöl, I., & Bekmezci, S. (2015, July). Investigating academic achievements and critical thinking dispositions of teacher candidates. Journal of Educa-tion and Training Studies, 3(4), 86-92.

Kilig, C. (2017). A new problem posing approach based on problem solving strategy: Analyzing pre service primary school teachers performance. Educational Science: Theory and Practice., 17(1), 771-789.

Korkmaz, O. (2012). The impact of critical thinking and logico-mathematical intelligence on algorithmic design skills. Journal of Educational Computing Research, 46(2), 173-193. doi:https://doi.org/10.2190/EC.46.2.d.

Marques, R., Tenreiro, C., & Matins, I. M. (2011). Critical thinking: Conceptual clarification and its importance in science education. Science Education International, 22, 43-45.

McDonald, S. D. (2017). Enhanced critical thinking skills through problem-solving games in secondary schools. Interdisciplinary Journal of e-Skills and Lifelong Learning, 13, 79-96. Diunduh dari http://www.informingscience.org/Publications/3711.

Mohottala, H. E. (2016, Oct). Improving critical skills using wikis and CGPS in a physics classroom. Physics Teacher, 54(7), 427-429.

Nbina, J. B., & Obomanu, B. J. (2011). Assessment of the effects of problem solving instructional strategies on students’ achievement and retention in chemistry with respect to location in Rivers State. World Journal of Education, 1(2), 74-79.

Ong, A.-C., & Borich, G. D. (2006). Teaching strategies that promote thinking. Singapore: The McGraw-Hill Co.

Osborne, J. (2014). Teaching critical thinking? New directions in science education. School Science Review., 95(352), 53-62.

Rahmawati, N., & Ashadi. (2018, November). Problem based english speaking material to enhance students’ critical thinking skills. Jurnal Kependidikan: Penelitian Inovasi Pembelajaran, 2(2), 285-301.

Ramezani, R., Larsari, E. E., & Kiasi, M. A. (2016). The relationship between critical thinking and EFL learners’ speaking ability. English Language Teaching, 9(6), 189-198.

Santos, L. f. (2017). The role of critical thinking in science education. Journal of Education and Practices, 8(20), 159-173.

Santrock, J. W. (2004). Educational psychologi (2nd ed.) Dallas: McGraw Hill Co.

Slavin, R. E. (2009). Educational psycho-logy. New Jersey: Pearson Education.

Solso, R. L., Maclin, O. H., & Maclin, M. K. (2008). Cognitive psychology. New Jersey: Pearson Education Inc.

Swartz, R., & Perkins, D. (1990). Teaching thinking: Issues and approaches. The practitioner’s guide to teaching thinking series. Pacific Grove, CA: Critical Thinking Press and Software.

Triyono, Senam, Jumadi, & Wilujeng, I. (2017). Pengaruh pembelajaran IPA berbasis creative problem solving. Jurnal Kependidikan: Penelitian Inovasi Pembelajaran, 1(2), 214-226.

Widiana, I. W., & Jampel, I. N. (2016, Sep). Improving Students’ creative thinking and achievement through the implementation of multiple intelligence approach with mind mapping. International Journal of Evaluation and Research in Education, 5(3), 246-254.

Yurt, E., & Polat, S. (2015). The effectiveness of multiple intelligence applications on academic achievement: A meta-analysis. Journal of Social Studies Education Research, 6(1), 84-122.