Pembelajaran Inkuiri Terbimbing untuk Meningkatkan Pemahaman Konseptual Siswa Pada Materi Trigonometri Kelas X SMA

Amalia Martha Santosa, Sisworo Sisworo, Dwiyana Dwiyana


Abstract: The research purpose is to describe guided inquiry learning to improve students’ conceptual understanding and procedural fluency in trigonometry of X graders of senior high school. The research method used was Classroom Action Research. The research subjects were 34 students of X graders of MIPA 1 SMAN 7 Malang. Guided inquiry learning results were obtained through stimulation, problem identification, data collection, data processing, verification, and conclusion. The research can improve students’ conceptual understanding and procedural fluency which are indicated by students’score greater than or equal to 75 or 76% and average percentage improvement of final cycle test score based on conceptual understanding and procedural fluency indicator.

Abstrak: Penelitian ini bertujuan untuk mendeskripsikan pembelajaran inkuiri terbimbing yang dapat meningkatkan pemahaman konseptual dan kelancaran prosedural siswa materi trigonometri kelas X SMA. Penelitian ini menggunakan model Penelitian Tindakan Kelas (PTK). Subjek penelitian yaitu 34 siswa kelas X MIPA 1 SMAN 7 Malang. Hasil penelitian pembelajaran inkuiri terbimbing melalui langkah-langkah pemberian rangsangan, identifikasi masalah, pengumpulan data, pengolahan data, pembuktian, dan penarikan kesimpulan. Penelitian dapat meningkatkan pemahaman konseptual dan kelancaran prosedural ditunjukkan dengan siswa mendapatkan skor lebih dari atau sama dengan  yaitu sebesar 76% dan peningkatan persentase rata-rata skor tes akhir siklus berdasarkan indikator pemahaman konseptual dan kelancaran prosedural. 


guided inquiry; conceptual understanding; trigonometry; inkuiri terbimbing; pemahaman konseptual; trigonometri

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Abdulwahed, M., Jaworski, B., & Crawford, A. (2012). Institutional Repository Innovative Approaches to Teaching Mathematics in Higher Education : a Review and Critique. Nordic Studies in Mathematics Education, 2(17), 49–68.

Bailey, P. D. (2008). Should Teacher Centred Teaching Replace Student Centred Learning?. Chemistry Education Research and Practice, 9(1), 70–74.

Berry, M. H., & Berry, G. (2014). “Reading an Object”: Developing Effective Scientific Inquiry Using Student Questions. European Journal of Science and Mathematics Education, 2(2), 87–97.

Bilgin, I. (2009). The effects of guided inquiry instruction incorporating a cooperative learning approach on university students’ achievement of acid and based concepts and attitude toward guided inquiry instruction. Scientific Research and Essay, 4(10), 1038–1046. Retrieved from

Burton, L. (2004). Mathematicians as Enquirers: Learning About Learning Mathematics. Dordrecht: Kluwer Academic Publishers.

Creswell, J. W. (2009). Research Design: Qualitative, Quantitative and Mixed Approaches (3rd Edition). Research Design: Qualitative, Quantitative, and Mixed Methods Approaches.

Elia, I., van den Heuvel-Panhuizen, M., & Kolovou, A. (2009). Exploring strategy use and strategy flexibility in non-routine problem solving by primary school high achievers in mathematics. ZDM - International Journal on Mathematics Education, 41(5), 605–618.

Hasnida, N., Ghazali, C., & Zakaria, E. (2011). Students’ Procedural and Conceptual Understanding of Mathematics, 5(7), 684–691.

Jacobsen, D. (2009). Methods for Teaching: Promoting Student Learning in K-12 Classrooms. London: Pearson Education, Inc.

Johnson, B., & Alibali, M. (1999). Conceptual and Procedural Knowledge of Mathematics Does One Lead to the Other? Journal of Educational Psycology, 1(91), 175–189.

Kauchak, D., & Eggen, P. (2012). Learning and Teaching-Research-Based Methods, 465. Retrieved from

Kemmis, S., & McTaggart, R. (2007). Participatory Action Research: Communicative action and the public sphere. Strategies of Qualitative Inquiry, 271–330.

Kilpatrick, J., Swafford, J., & Findell, B. (2002). Helping Children Learn Mathematics. Education.

Klymchuk, S. (2016). Counterexamples in Calculus. Amerika: The Mathematical Association of America.

Matthew, B., & Kenneth, E. (2013). A Study on The Effects of Guided Inquiry Teaching Method on Students Achievement in Logic. International Researcher, 2(1).

Moalosi, W. T. S. (2013). Effects of Direct Instruction and Social Constructivism on Learners’ Congnitive Development: A Comparative Study. Academic Research International, 4(6), 301–305. Retrieved from

Mulyasa, E. (2005). Menjadi Guru Profesional. Bandung: PT. Remaja Rosdakarya.

National Council of Teacher of Mathematics. (2000). Principles and Standards for School Mathematics. School Science and Mathematics (Vol. 47).

NCTM. (2000). Princiles and Standards for School Mathematics. USA: The National Council of Teachers of Mathematics.

Orton, A. (1992). Learning Mathematics: Issues, Theory and Practice. London: Retwork Book.

Orton, A. (2006). Learning Mathematics: Issues, Theory and Classroom Practice 3rd Edition (3rd ed.). London: Continuum.

Pudwell, L. (2017). Teaching the Inquiry Process Through Experimental Mathematics Teaching the Inquiry Process Through, 1970 (March).

Sabirin, M. (2014). Representasi dalam Pembelajaran Matematika. JPM IAIN Antasari, 1(2), 33–34.

Walle, J. A. Van de, Karp, K. S., & Bay-Williams, J. M. (2010). Elementary and Middle School Mathematics: Teaching Developmentally. Retrieved from



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JPtpp is accredited “Rank 2” as a scientific journal under the decree of the Directorate General of Research Enhancement and Development, Ministry of Research, Technology, and Higher Education, dated October 24, 2018, No: 30/E/KPT/2018, effective for five years from Volume 3 Issue 1, 2018 until Volume 7 Issue 8, 2022.

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Graduate School Of Universitas Negeri Malang

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