A PROBLEM-BASED METACOGNITIVE APPROACH TO MATHEMATICS LEARNING

Authors

  • Nurfauziah Siregar IAIN Padangsidempuan

Keywords:

pendekatan metakognitif berbasis masalah, pembelajaran matematika, pemecahan masalah matematika

Abstract

Learning with a problem-based metacognitive approach can grow students' cognitive abilities in solving problems. By solving problems, students can organize and control students' cognitive activities so that students' learning methods are more effective and efficient, and students' thinking patterns become more developed and creative in solving problems. Learning that begins with giving problems fosters students' metacognitive actions, can contribute to building students' character to be aware of their behavior in learning. Metacognition has two components, namely metacognitive knowledge and metacognitive skills. In mathematics learning, students' metacognition can be developed in each phase of problem solving: understanding the problem, planning/determining a problem solving strategy, carrying out the solution as planned, and interpreting/rechecking.

References

Fauzi, Mhd. Kms. Amin. 2011. Peningkatan Kemampuan Koneksi Matematis dan Kemandirian Belajar Siswa dengan Pendekatan Pembelajaran Metakognitif di Sekolah Menengah Pertama. Bandung: Disertasi PPs UPI. Tidak Diterbitkan.

Blakey dan Spence. 1990. Developing Metacognition. ERIC Digest. (Online), (http://www.ericdigest.org/pre-9218/developing.htm).

Fasikhun. 2008. Implementasi Pembelajaran Kelompok Dengan Pendekatan Metakognitif Yang Berbasis Teknologi Dikemas Dalam CD Interaktif Pada Materi Geometri di MAN Babakan Tegal. Tesis PPs UNNES. Tidak Diterbitkan.

Haryati, F. 2015. (Online), (http://ejournal.uin-suska.ac.id/index.php/SJME/article/view/1331/1180, diakses 11 Januari 2017).

Huitt, William G. 1997. Metacognition. (Online),(http://tip.psychology.org/-meta.html).

Johari, Maman. 2010. Pembelajaran Matematika dengan Pendekatan Pemecahan Masalah melalui Diskusi Kelompok untuk Meningkatkan Kemampuan Penalaran dan Komunikasi Matematis Siswa Sekolah Dasar. Tesis tidak diterbitkan. Bandung: UPI.

Mulyana, E. DKK. 2014. Model Pengembangan Desain Didaktis Subject Specific Pedagogy Bidang Matematika Melalui Program Pendidikan Profesi Guru. Jurnal Pendidikan Matematika. UPI. (Online), (http://www.researchgate.net/publication/290501340), diakses 25 Desember 2017).

Nur, M. 2000. Strategi-Strategi Belajar. Makalah. Surabaya: Pusat Studi Matematika dan IPA Sekolah. OLRC News. 2004. Metacognition. (Online), (Error!Hyperlink reference notvalid./ohioeff/resource.doc, diakses 11 januari 2017).

Sehendra. Pembelajaran Matematika Kognitif. (online) (http://respository.upi.edu/operator/upload/artlppm2010suhendrapembelajaranmematikametakognitif.Pdf, diakses 11 Januari 2017).

Suryadi, D. 2010. Metapedadidaktik dan Didactical Design Research (DDR): Sintesis Hasil Pemikiran Berdasarkan Lesson Study. Bandung: FMIPA UPI.

Susanto, A. 2013. Teori Belajar dan Pembelajaran. Jakarta: Kencana.

Taccasu Project. 2008. Metacognition. (Online), (http://www.hku.hk/cepc/taccasu/ref/metacognition.html).

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Published

2017-12-01

How to Cite

Siregar, N. (2017). A PROBLEM-BASED METACOGNITIVE APPROACH TO MATHEMATICS LEARNING. REKOGNISI : Jurnal Pendidikan Dan Kependidikan (E-ISSN 2599-2260), 2(2), 1–20. Retrieved from https://jurnal.unusu.ac.id/index.php/rekognisi/article/view/64

Issue

Vol. 2 No. 2 (2017)

Section

Articles