Pengaruh Pendekatan Inkuiri Terbimbing dipadu dengan Diagram Alir terhadap Prestasi Belajar Siswa SMA

PAHRIAH PAHRIAH

Abstract


This study aims to compare student achievement in teaching chemical equilibrium topics using a guided inquiry approach combined with and without flow charts. This research is a quasi-experimental study with a pretest-posttest control group design. The study sample consisted of 31 experimental class students and 24 control class students. The instruments in this study consisted of two types, namely (1) the instrument of treatment in the form of learning devices using a guided inquiry approach combined with flow diagrams in the experimental class students and guided inquiry learning in control class students, while (2) measurement instruments in the form of learning outcomes tests students, student activeness observation sheets, and student performance assessment sheets. The instruments are declared valid by 2 chemistry lecturers and 1 chemistry teacher who has good competence and experience in chemistry and chemistry learning. The results showed that the guided inquiry approach combined with the flow diagram provided students’ cognitive learning achievements (83.87 experimental classes and 70.83 control classes), affective (79.00 experimental classes and 74.00 control classes), and psychomotor (84.00 experimental class and 80.00 control class) were better than guided inquiry approaches without flow diagrams.


Keywords


Guided Inquiry, Flow Chart, Learning Achievement

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References


Ahmad, S. (1998). Kesalahan konsep dalam pokok bahasan kesetimbangan kimia siswa kelas II SMUN di Kotamadya Palangkaraya. Tesis tidak diterbitkan. Malang: Program Pascasarjana IKIP Malang.

Arifin, M. (1995). Pengembangan Program Pengajaran Bidang Studi Kimia. Surabaya: Universitas Airlangga.

Arikunto, S. (2009). Evaluasi Pembelajaran. Jakarta: Rineka Cipta.

Dahar, R.W. (1988). Teori-teori belajar. Jakarta: Depdikbud Dirjen Dikti P2LPTK.

Dahar, R.W. (1989). Teori-teori Belajar. Jakarta: Erlangga.

Davidowitz, B. & Rollnick, M. (2001). Effectiveness of flow diagrams as a strategy for learning in laboratories. Australian Journal Education in Chemistry. 57(6): 18−24.

deJong, O. (2000). Crossing the border: chemical education research and teaching practice. Journal of Chemical Education, 4 (1), 31−34.

Driel, J.H. & Graber, W. (2002). The teaching and learningof chemical equilibrium. Chemical Education: Towards Research-based Practice, 271−292.

Effendy. (1985). Pengaruh Pengajaran Kimia dengan Cara Inkuiri Terbimbing dan Cara Verifikasi terhadap Perkembangan Intelek dan Prestasi Belajar Mahasiswa IKIP Jurusan Pendidikan Kimia Tahun Pertama. Tesis tidak diterbitkan. Jakarta: PPS IKIP Jakarta.

Farrel, J.J., Moog, R.S., & James, S.N. (1999). Guided inquiry in chemistry. Journal of Chemical Education. 76(4), 570−573.

Hackling, M.H. & Garnett, P.J. (1985). Misconception of Chemical Equilibrium. International Journal of Science Education, 7(2), 205−214.

Hairun, M. (2003). Identifikasi Pemahaman Konseptual dan Algoritmik serta Miskonsepsi dalam Materi Kesetimbangan Kimia Siswa Kelas II SMUN di Kota Kendari Propinsi Sulawesi Tenggara. Tesis tidak diterbitkan. Malang: Program Pascasarjana UM.

Ibnu, S., Moehnilabib, M., Mukhadis, A., Suparno, Rofi’udin, A., Sukarnyana, IW. (2003). Dasar-dasar metodologi penelitian. (S. Ibnu, A. Mukhadis, IW. Dasna, ed). Malang. Universitas Negeri Malang.

Iskandar, S. (2002). Model Pembelajaran Daur Belajar Konstruktivisme dan Ilmu Kimia SMU. Jurnal Matematika dan IPA Sekolah, 1(1), 22−34.

Jelita. (2003). Keefektifan Diagram Alir (Flow Diagram) dalam Pembelajaran Keterampilan Proses Untuk Meningkatkan Pemahaman Konsep Asam Basa dan Persepsi Siswa Kelas II SMUN 5 Malang Terhadap Penggunaan Diagram Alir. Tesis tidak diterbitkan. Malang: Program Pascasarjana Universitas Negeri Malang.

Johnstone, A.H. (1997). Chemistry Teaching-Science or Alchemy? Journal of Chemical Education, 76(4), 262−269.

Kartini.(2007). Keefektifan Pembelajaran Menggunakan Model Learning Cycledan Diagram Alir untuk Meningkatkan Hasil Belajar Siswa SMA Laboratorium. Tesis tidak diterbitkan. Malang: Program Pascasarjana Universitas Negeri Malang.

Mngomezulu, W.T. (1993). Use of a flow Diagram To Do Practical Work. Paper Presented at The 15 th National Conventation of Mathematics and Natural Science Education. South Afrika: University of the Orange Free state.

Nakhleh, M.B. (1994). Chemical Education, Research in the Laboratory Environment. Journal of Chemical Education 71 (3), 201−205.

Pavelich, M.J. &Abraham, M.R. (1977). Guided Inquiry Laboratories for General Chemistry Students. Journal of College Science Teaching, 7(1), 23−24

Pellegrino, D. (2008). Guided Inquiry: 21-st Century Learners?. Journal of Chemical Education. 45(8), 1389−1391.

Prayogi, S & Muhali. (2015). Pengembangan model pembelajaran aktif berbasis inkuiri (ABI) untuk mengembangkan keterampilan berpikir kritis mahasiswa. Prisma Sains: Jurnal Pengkajian Ilmu dan Pembelajaran Matematika dan IPA IKIP Mataram, 3(1), 21-26.

Rahayu, S. (2001). Kecendrungan Pembelajaran Kimia di Awal Abad 21. Jurnal MIPA, 30(2), 1−18.

Rosadi, F. (2006). Pengaruh Pembelajaran Ilmu Kimia dengan Pendekatan Inkuiri Terbimbing Terhadap Prestasi Belajar Kimia Siswa SMAN 1 Kuterejo Mojokerto Tahun Pelajaran 2005/2006. Tesis tidak diterbitkan. Malang: Program Pascasarjana Universitas Negeri Malang.

Sanberg & Bellamy, M. (2004). A web-based Applet to Teach Le Chatelier’s principle. Journal of Science Education. 5(1), 41; ProQuest education Journals.

Sihaloho, M. (2007). Analisis Pemahaman Konsep Pergeseran Kesetimbangan Kimia Pada Tingkat Makroskopis dan Mikroskopis Siswa di SMA Negeri gorontalo. Jurnal Penelitian dan Pendidikan. 5: 223−235.

Sirhan, G. (2007). Learning Diffucultes in Chemistry: An Overview. Journal of Turkish Science Education, 4(2), 2−20.

Sudjana, N. (2006). Penilaian Hasil Proses Belajar Mengajar. Bandung: PT Remaja Rosdakarya.

Sulaeman, (1988). Teknologi/Metodologi Pengajaran Pengajaran. Jakarta: P2LPTK.

Syarifudin. (2014). Pengembangan buku siswa SMP kelas VIII dengan materi prisma dan limas yang berpijak pada masalah kontekstual, penggunaan model, dan penemuan terbimbing. Prisma Sains: Jurnal Pengkajian Ilmu dan Pembelajaran Matematika dan IPA IKIP Mataram, 2(1), 48-56.

Tyson, L., Treagust, D.L., & Bucat, R.B. (1999). The Complexity of teaching and learning chemical equilibrium. Journal of chemical education, 76(4), 554; ProQuest Education journals.

Wonorahardjo, S. (2005). Filosofi Konstruktivisme dalam Pembelajaran Kimia. I.W. Dasna & Sutrisno (Eds). Model-Model Pembelajaran Konstruktivistik dalam Pembelajaran Sains/Kimia. Malang: FPMIPA UM.




DOI: https://doi.org/10.33394/j-ps.v3i2.973

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