EFEKTIFITAS PROBLEM POSING PADA LEARNING CYCLE 5E TERHADAP HASIL BELAJAR DAN BERFIKIR TINGKAT TINGGI PADA MATERI KELARUTAN DAN HASIL KALI KELARUTAN
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Published:
Feb 23, 2018
Keywords:
problem posing, learning cycle 5E, hasil belajar, kemampuan berfikir tingkat tinggi
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Abstract
Tujuan dari penelitian ini adalah untuk mengetahui efektifitas problem posing pada learning cycle 5E dalam meningkatkan hasil belajar dan kemampuan berfikir tingkat tinggi. Problem posing diterapkan pada fase explanation dan fase elaboration. Rancangan penelitian menggunakan quasi experimental dengan posttest only non equivalent control group design. Data penelitian adalah hasil belajar dan kemampuan berfikir tingkat tinggi. Hasil penelitian menunjukkan bahwa 1) terdapat peningkatan hasil belajar siswa yang dibelajarkan dengan learning cycle 5E-problem posing dari pada kelas learning cycle 5E ditinjau dari kemampuan awal siswa, 2) terdapat peningkatan kemampuan berfikir tingkat tinggi siswa yang dibelajarkan dengan learning cycle 5E-problem posing dari pada kelas learning cycle 5E dari kemampuanawal siswa, 3)Tidak terdapat interaksi kemampuan awal dengan model pembelajaran terhadap hasil belajar dan kemampuan berfikir tingkat tinggi siswa.
Article Details
How to Cite
Nugroho, F., Dasna, I. W., & Ibnu, S. (2018). EFEKTIFITAS PROBLEM POSING PADA LEARNING CYCLE 5E TERHADAP HASIL BELAJAR DAN BERFIKIR TINGKAT TINGGI PADA MATERI KELARUTAN DAN HASIL KALI KELARUTAN. Orbital: Jurnal Pendidikan Kimia, 1(1), 28-38. https://doi.org/10.19109/ojpk.v1i1.1863
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Articles
How to Cite
Nugroho, F., Dasna, I. W., & Ibnu, S. (2018). EFEKTIFITAS PROBLEM POSING PADA LEARNING CYCLE 5E TERHADAP HASIL BELAJAR DAN BERFIKIR TINGKAT TINGGI PADA MATERI KELARUTAN DAN HASIL KALI KELARUTAN. Orbital: Jurnal Pendidikan Kimia, 1(1), 28-38. https://doi.org/10.19109/ojpk.v1i1.1863
References
Abraham, M. R. & Renner, J. W. 1986. The Sequence Of Learning Cycle Activities In High School Chemistry. Journal Of Research In Science Teaching. 23 (2): 121-143
Balitbang, 2013. Peta Indeks Kompetensi Sekolah SMA/MA berdasarkan Hasil Ujian Nasional 2013, (Online), (kemdikbud.go.id.), diakses tanggal 10 September 2015
Barke, H.D., Al Hazari & Yitbarek, S.2009. Misconceptions in Chemistry. SpringerVerlag Berlin Heidelberg
Berkel, B.V., Pilot, A.,Bulte, A.M.W. 2009. Micro–Macro Thinking in Chemical Education: Why and How to Escape. Multiple Representations in Chemical Education. Springer Science Business Media B.V
Bodner, G. M. 1986. Constructivism: A Theory Of Knowledge. Journal of Chemical Education, (Online), 63: 873-878, (chemed.chem.purdue.edu/chemed/.../pdf/24_Construct.pdf) diakses 1 Januari 2017
Brown, S. L. & Votaw, N. L. 2008. Liquid Motion Lamp: A Learning-Cycle Approach to Solubility, Science Activities: Classroom Projects and Curriculum Ideas, (Online), 45(1): 29-36, (http://dx.doi.org/10.3200/SATS.45.1.29-36)
Bybee, R. W., Taylor, J. A., Gardner, A., Scotter, P. V., Powell, J. C., Westbrook, A. & Landes, N. 2006. The BSCS 5E Instructional Model: Origins, Effectiveness, and Applications (executive summary), (Online), (www. bscs.org ), diakses 5 Juni 2016
Chua, Puay H. & Yeap, Ban H.2009. Problem posing performance of grade 9 students in singapore on an open-ended stimulus. (Online). (tsg.icme11.org/document/get/457), diakses 5 Juni 2016
Dasna, W. & Fajaroh, F. 2007. Pembelajaran Dengan Model Siklus Belajar (Learning Cycle).(Online), (http//lubisgrafura.woodpress.com.pemeblajaran dengan model sirklus belajar learning cycle, diakses 5 November 2015
Davidowitz, B., Chittleborough, G. 2009. Linking the Macroscopic and Submicroscopic Levels: Diagrams .Multiple Representations in Chemical Education. Springer Science Business Media B.V
De Jong, O., Blonder, R., & Oversby, J. 2013. How To Balance Chemistry Education Between Observing Phenomena And Thinking In Models, Balancing Between Phenomena And Models, (Online), (https://www.academia.edu), diakses 5 Juni 2017
Drive, R., Asoko, H., Leach, J., Mortimer, E.,& Scott. 1994. Constructing Scientific Knowledge in the Classroom. 23 (7): 5-12
Duran, E., Duran, L., Haney, J. & Scheuermann, A. 2011. Modifying the 5E instructional model to address the needs of all learners,(Online), (www.scilinks.org), diakses 5 Juni 2016
Duron, R., Limbach, B., Waugh W.2006. Critical Thinking Framework For Any Discipline, International Journal of Teaching and Learning in Higher Education, (Online), 17(2): 160-166, (www.sazlie.com/bahan/promotecriticalthinking.pdf), diakses 8 November 2014
Effendy. 1985. Pengaruh Pengajaran Ilmu Kimia dengan cara Inkuiri Tembimbing dan dengan cara Verifikasi terhadap pengembangan intelek dan Prestasi Belajar Mahasiswa IKIP Jurusan Pendidikan Kimia Tahun Pertama. Tesis tidak diterbitkan. Jakarta. Fakultas Pascasarjana IKIP Jakarta.
Effendy. 2002. Upaya untuk Mengurangi Kesalahan Konsep dalam Pengajaran Kimia dengan menggunakan Stategi Konflik Kognitif. Media komunikasi kimia, 2(6):1-22. Malang: JICA
English, L. D. 1997. Seventh-Grade Students Problem Posing From Open-Ended Situations, Online), (https://www.merga.net.au/.../Practical_English_1997.pdf). diakses 5 Juni 2016
Eren, C. 2008. Effects Of 5e Learning Cycle Model On Understanding Of State Of Matter And Solubility Concepts. Disertasi. Turki. Department of Secondary Science and Mathematics Education Middle, East Technical University
Gilbert, John K and Treagust, David F. 2009. Introduction: Macro, Submicro and Symbolic Representations and the Relationship Between Them: Key Models in Chemical Education. Multiple Representations in Chemical Education.
Springer Science Business Media B.V
Guzzetti B., T.E. Taylor, G.V. Glass, and W.S. Gammas. 1993. Promoting conceptual change in science: A comparative meta-analysis of instructional interventions from reading education and science education. Reading Research Quarterly,
28:117–159
Johnstone, Alex H.. 2000. Teaching of chemistry - logical or psychological?. Chemistry Education:Research And Practice In Europe, (Online), 1(1): 9-15, (www.elainegalvin.ie/wp-content/uploads/2014/.../teaching-of-chemistryJohnstone.pd...by AH JOHNSTONE - 2000) ,diakses 5Juni 2017
Karplus, Robert. 1977. Science Teaching And The Development Of Reasoning. Journal of Research in Science Teaching, 14( 2): 169-175
Kelly, Resa., Barrera, Juliet H.,& Mohamed, Saheed C. 2010. An Analysis of Undergraduate General Chemistry Students’ Misconceptions of the Submicroscopic Level of Precipitation Reactions. Journal of chemical education, (Online), 87, (https://www.researchgate.net/publication), diakses 5 Juni 2017
Kemendikbud. 2014. Konsep dan Implementasi Kurikulum 2013. Makalah Paparan Wakil Menteri Pendidikan dan Kebudayaan R.I Bidang Pendidikan , Jakarta, 14 Januari
King, FJ., Goodson L., Rohani F. 2011. Higher Order Thinking Skills. A publication of the Educational Services Program, now known as the Center for Advancement of Learning and Assessment, (Online), (www.cala.fsu.edu), diakses 5 Juni 2016
Krause, S. & Tasooji, A. 2007. AC 2007-413: Diagnosing Students' Misconceptions On Solubility And Saturation For Understanding Of Phase Diagrams. American Society for Engineering Education, (Online (https://www.researchgate.net/publication), diakses 5 Juni 2017
Lipson, Marjorie Youmans. 1982. Learning New Information From Text: The Role Of Prior Knowledge And Reading Ability. Journal of Reading Behavior,14 (3)
Maier,Steven J. & Marek Edmund A.2006. The Learning Cycle: A Reintroduction. Journal The Physics Teacher, 44
Munzenmaier, Cecelia. & Rubin, Nancy. 2013. Perspectives Bloom’s Taxonomy: What’s Old Is New Again. The eLearning Guild. Scott Hanson of Solubility Equilibrium. Journal of Chemical Education. (Online), 78(5),
(https://www.researchgate.net/publication), diakses 5 Juni 2017
Piitalis, M., Christon, C., Mousoulides, N., Pitta-Pantazi, D. 2004. A Structural Model For Problem Posing. Proceedings of the 28th Conference of the International Group for the Psychology of Mathematics Education, (4): 49–56
Rahayu , Sri. 2012. Peningkatan Prestasi dan Proses Belajar Kimia Dasar Mahasiswa Bilingual melalui Strategi Team-Based Learning. Malang: FMIPA Universitas Negeri Malang
Rahayu, S. 2016. Meningkatkan Higher Order Thinking Skills(HOTS) Melalui Pembelajaran Literasi Sains. Disajikan dalam Seminar Nasional Pendidikan IPA, Pascasarjana UM, Malang, 8 Oktober
Raviolo, A. 2001. Assessing Students’ Conceptual Understanding. Journal of Chemical Education, (Online), 78 (5): 629-631, (JChemEd. Chem. Wisc. Edu), diakses 3 April 2016
Schafersman, Steven D. An Introduction to Critical Thinking, (Online),(http://www.freeinquiry.com/critical-thinking.html), diakses 5 Juni 2016
Silver, Edward A. 1994. On Mathematical Problem Posing. For the Learning of Mathematics, (Online), 14 (1) :19-28, (www.jstor.org/stable/40248099), diakses 5 Juni 2016
Silver, Edward A., & Cai, Jinfa.1966. An Analysis of Arithmetic Problem Posing by Middle School Students. Journal for Research in Mathematics Education, 27(5): 521-539, (http://www.jstor.org/stable/749846), diakses 5 Juni 2016
Silver, Edward A., Downs, Joanna Mamona., Leung, Shukkwan S., & Kenney, Patricia Ann. 1996. Posing Mathematical Problems: An Explorator. Journal for Research in Mathematics Education, 27(3): 293-309.
(www.jstor.org/stable/749366 ), diakses 5 Juni 2016
Svinicki, Marilla. 1993-94. What they don't know can hurt them: The role of prior knowledge in learning. Essays on Teaching Excellence Toward the Best in the Academy, (Online), 5(4), (www.podnetwork.org), diakses 5 Juni 2016
Tan, Kim C.D., Goh, Ngoh K., Chia L.S. & Treagust D.F. 2009. Linking the Macroscopic, Sub-microscopic and Symbolic Levels:The Case of Inorganic Qualitative Analysis . Multiple Representations in Chemical Education.
Springer Science Business Media B.V
Thompson, Ross A. & Zamboanga Byron L. 2004.. Academic Aptitude and Prior Knowledge as Predictors of Student Achievement in Introduction to Psychology. Journal of Educational Psychology, 96 (4): 778–784
Wu, Hsin-Kai, Krajcik & Joseph S., Soloway , Elliot .2001. Promoting Understanding of Chemical Representations: Students' Use of a Visualization Tool in the Classroom. Journal of Research in Science Teaching, (Online), 38(7): 821-842,
(https://pdfs.semanticscholar.org), diakses 13 January 2015
Balitbang, 2013. Peta Indeks Kompetensi Sekolah SMA/MA berdasarkan Hasil Ujian Nasional 2013, (Online), (kemdikbud.go.id.), diakses tanggal 10 September 2015
Barke, H.D., Al Hazari & Yitbarek, S.2009. Misconceptions in Chemistry. SpringerVerlag Berlin Heidelberg
Berkel, B.V., Pilot, A.,Bulte, A.M.W. 2009. Micro–Macro Thinking in Chemical Education: Why and How to Escape. Multiple Representations in Chemical Education. Springer Science Business Media B.V
Bodner, G. M. 1986. Constructivism: A Theory Of Knowledge. Journal of Chemical Education, (Online), 63: 873-878, (chemed.chem.purdue.edu/chemed/.../pdf/24_Construct.pdf) diakses 1 Januari 2017
Brown, S. L. & Votaw, N. L. 2008. Liquid Motion Lamp: A Learning-Cycle Approach to Solubility, Science Activities: Classroom Projects and Curriculum Ideas, (Online), 45(1): 29-36, (http://dx.doi.org/10.3200/SATS.45.1.29-36)
Bybee, R. W., Taylor, J. A., Gardner, A., Scotter, P. V., Powell, J. C., Westbrook, A. & Landes, N. 2006. The BSCS 5E Instructional Model: Origins, Effectiveness, and Applications (executive summary), (Online), (www. bscs.org ), diakses 5 Juni 2016
Chua, Puay H. & Yeap, Ban H.2009. Problem posing performance of grade 9 students in singapore on an open-ended stimulus. (Online). (tsg.icme11.org/document/get/457), diakses 5 Juni 2016
Dasna, W. & Fajaroh, F. 2007. Pembelajaran Dengan Model Siklus Belajar (Learning Cycle).(Online), (http//lubisgrafura.woodpress.com.pemeblajaran dengan model sirklus belajar learning cycle, diakses 5 November 2015
Davidowitz, B., Chittleborough, G. 2009. Linking the Macroscopic and Submicroscopic Levels: Diagrams .Multiple Representations in Chemical Education. Springer Science Business Media B.V
De Jong, O., Blonder, R., & Oversby, J. 2013. How To Balance Chemistry Education Between Observing Phenomena And Thinking In Models, Balancing Between Phenomena And Models, (Online), (https://www.academia.edu), diakses 5 Juni 2017
Drive, R., Asoko, H., Leach, J., Mortimer, E.,& Scott. 1994. Constructing Scientific Knowledge in the Classroom. 23 (7): 5-12
Duran, E., Duran, L., Haney, J. & Scheuermann, A. 2011. Modifying the 5E instructional model to address the needs of all learners,(Online), (www.scilinks.org), diakses 5 Juni 2016
Duron, R., Limbach, B., Waugh W.2006. Critical Thinking Framework For Any Discipline, International Journal of Teaching and Learning in Higher Education, (Online), 17(2): 160-166, (www.sazlie.com/bahan/promotecriticalthinking.pdf), diakses 8 November 2014
Effendy. 1985. Pengaruh Pengajaran Ilmu Kimia dengan cara Inkuiri Tembimbing dan dengan cara Verifikasi terhadap pengembangan intelek dan Prestasi Belajar Mahasiswa IKIP Jurusan Pendidikan Kimia Tahun Pertama. Tesis tidak diterbitkan. Jakarta. Fakultas Pascasarjana IKIP Jakarta.
Effendy. 2002. Upaya untuk Mengurangi Kesalahan Konsep dalam Pengajaran Kimia dengan menggunakan Stategi Konflik Kognitif. Media komunikasi kimia, 2(6):1-22. Malang: JICA
English, L. D. 1997. Seventh-Grade Students Problem Posing From Open-Ended Situations, Online), (https://www.merga.net.au/.../Practical_English_1997.pdf). diakses 5 Juni 2016
Eren, C. 2008. Effects Of 5e Learning Cycle Model On Understanding Of State Of Matter And Solubility Concepts. Disertasi. Turki. Department of Secondary Science and Mathematics Education Middle, East Technical University
Gilbert, John K and Treagust, David F. 2009. Introduction: Macro, Submicro and Symbolic Representations and the Relationship Between Them: Key Models in Chemical Education. Multiple Representations in Chemical Education.
Springer Science Business Media B.V
Guzzetti B., T.E. Taylor, G.V. Glass, and W.S. Gammas. 1993. Promoting conceptual change in science: A comparative meta-analysis of instructional interventions from reading education and science education. Reading Research Quarterly,
28:117–159
Johnstone, Alex H.. 2000. Teaching of chemistry - logical or psychological?. Chemistry Education:Research And Practice In Europe, (Online), 1(1): 9-15, (www.elainegalvin.ie/wp-content/uploads/2014/.../teaching-of-chemistryJohnstone.pd...by AH JOHNSTONE - 2000) ,diakses 5Juni 2017
Karplus, Robert. 1977. Science Teaching And The Development Of Reasoning. Journal of Research in Science Teaching, 14( 2): 169-175
Kelly, Resa., Barrera, Juliet H.,& Mohamed, Saheed C. 2010. An Analysis of Undergraduate General Chemistry Students’ Misconceptions of the Submicroscopic Level of Precipitation Reactions. Journal of chemical education, (Online), 87, (https://www.researchgate.net/publication), diakses 5 Juni 2017
Kemendikbud. 2014. Konsep dan Implementasi Kurikulum 2013. Makalah Paparan Wakil Menteri Pendidikan dan Kebudayaan R.I Bidang Pendidikan , Jakarta, 14 Januari
King, FJ., Goodson L., Rohani F. 2011. Higher Order Thinking Skills. A publication of the Educational Services Program, now known as the Center for Advancement of Learning and Assessment, (Online), (www.cala.fsu.edu), diakses 5 Juni 2016
Krause, S. & Tasooji, A. 2007. AC 2007-413: Diagnosing Students' Misconceptions On Solubility And Saturation For Understanding Of Phase Diagrams. American Society for Engineering Education, (Online (https://www.researchgate.net/publication), diakses 5 Juni 2017
Lipson, Marjorie Youmans. 1982. Learning New Information From Text: The Role Of Prior Knowledge And Reading Ability. Journal of Reading Behavior,14 (3)
Maier,Steven J. & Marek Edmund A.2006. The Learning Cycle: A Reintroduction. Journal The Physics Teacher, 44
Munzenmaier, Cecelia. & Rubin, Nancy. 2013. Perspectives Bloom’s Taxonomy: What’s Old Is New Again. The eLearning Guild. Scott Hanson of Solubility Equilibrium. Journal of Chemical Education. (Online), 78(5),
(https://www.researchgate.net/publication), diakses 5 Juni 2017
Piitalis, M., Christon, C., Mousoulides, N., Pitta-Pantazi, D. 2004. A Structural Model For Problem Posing. Proceedings of the 28th Conference of the International Group for the Psychology of Mathematics Education, (4): 49–56
Rahayu , Sri. 2012. Peningkatan Prestasi dan Proses Belajar Kimia Dasar Mahasiswa Bilingual melalui Strategi Team-Based Learning. Malang: FMIPA Universitas Negeri Malang
Rahayu, S. 2016. Meningkatkan Higher Order Thinking Skills(HOTS) Melalui Pembelajaran Literasi Sains. Disajikan dalam Seminar Nasional Pendidikan IPA, Pascasarjana UM, Malang, 8 Oktober
Raviolo, A. 2001. Assessing Students’ Conceptual Understanding. Journal of Chemical Education, (Online), 78 (5): 629-631, (JChemEd. Chem. Wisc. Edu), diakses 3 April 2016
Schafersman, Steven D. An Introduction to Critical Thinking, (Online),(http://www.freeinquiry.com/critical-thinking.html), diakses 5 Juni 2016
Silver, Edward A. 1994. On Mathematical Problem Posing. For the Learning of Mathematics, (Online), 14 (1) :19-28, (www.jstor.org/stable/40248099), diakses 5 Juni 2016
Silver, Edward A., & Cai, Jinfa.1966. An Analysis of Arithmetic Problem Posing by Middle School Students. Journal for Research in Mathematics Education, 27(5): 521-539, (http://www.jstor.org/stable/749846), diakses 5 Juni 2016
Silver, Edward A., Downs, Joanna Mamona., Leung, Shukkwan S., & Kenney, Patricia Ann. 1996. Posing Mathematical Problems: An Explorator. Journal for Research in Mathematics Education, 27(3): 293-309.
(www.jstor.org/stable/749366 ), diakses 5 Juni 2016
Svinicki, Marilla. 1993-94. What they don't know can hurt them: The role of prior knowledge in learning. Essays on Teaching Excellence Toward the Best in the Academy, (Online), 5(4), (www.podnetwork.org), diakses 5 Juni 2016
Tan, Kim C.D., Goh, Ngoh K., Chia L.S. & Treagust D.F. 2009. Linking the Macroscopic, Sub-microscopic and Symbolic Levels:The Case of Inorganic Qualitative Analysis . Multiple Representations in Chemical Education.
Springer Science Business Media B.V
Thompson, Ross A. & Zamboanga Byron L. 2004.. Academic Aptitude and Prior Knowledge as Predictors of Student Achievement in Introduction to Psychology. Journal of Educational Psychology, 96 (4): 778–784
Wu, Hsin-Kai, Krajcik & Joseph S., Soloway , Elliot .2001. Promoting Understanding of Chemical Representations: Students' Use of a Visualization Tool in the Classroom. Journal of Research in Science Teaching, (Online), 38(7): 821-842,
(https://pdfs.semanticscholar.org), diakses 13 January 2015