Isu-isu dan Tren Aktivitas Siswa dalam Belajar Matematika
Keywords:
Student learning activities, Problem Base Learning (PBL), 21st Century Challenge
Abstract
The rapid development of technology and science and the ever-expanding globalization requires students to have new skills and knowledge ready to deal with them. To prepare for this, the student activity in learning must be independent, students learn faced with the problem then directed to look for conjecture and analyze the problem until the students get new knowledge. Students' activities in such learning are the types of learning that lead to learning with the problem base learning (PBL) model. In some countries such as in America, Japan and Australia, student learning activities are directed towards problem-solving activities with learning-type Problem Base Learning (PBL) and Project Base Learning (PjBL) and assisted with ICT skills. Such learning activities are expected so that students can face challenges in the 21st century.
References
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Murni, A., Sabandar, J., Kusumah, Y.S., dan Kartasamita, B.G. 2013. The Enhancement of Junior High School Students’ Abilities In Mathematical Problem Solving Using Soft Skill-Based Metacognitive Learning. IndoMS Journal of Mathematics Education 4 (2): 194-203.
NEA. 2011. Preparing 21st Century Students for a Global Society: An Educator’s Guide to the “Four Cs”. Washington: NEA
Pacific Policy Research Center. 2010. 21st Century Skills for Students and Teachers. Honolulu: Kamehameha Schools, Research & Evaluation Division.
Palinussa, A.L. 2013. Students’ Critical Mathematical Thinking Skills and Character: Experiments for Junior High School Students through Realistic Mathematics Education Culture-Based. IndoMS Journal of Mathematics Education. 4 (1): 75 - 94.
Partnership for 21st Century Skills. 2011. 21st Century Skills Map: Math. Washington: P21.org
Putra, M., dan Novita, R. 2015. Profile of Secondary School Students With High Mathematics Ability in Solving Shape and Space Problem. IndoMS Journal of Mathematics Education, (6) 1: 20-30.
Qohar, A., dan Sumarmo, U. 2013. Improving Mathematical Communication Ability and Self Regulation Learning of Yunior High Students by Using Reciprocal Teaching. IndoMS Journal of Mathematics Education, 4 (1): 59-74.
Rasiman. 2015. Leveling of Critical Thinking Abilities of Students of Mathematics Education in Mathematical Problem Solving. IndoMS Journal of Mathematics Education, 6 (1): 40-52.
Stephan, M.L., Fish, M.C., Chval, K.B., Herbel-Eisenmann, B., Wanko, J.J., Konold, C., Civil, M., dan Wilkerson, T.L. 2015. Grand Challenges and Opportunities in Mathematics Education Research. Journal for Research in Mathematics Education, 46 (2): 134 – 146.
Widjaja, W. 2013. The Use of Contextual Problems to Support Mathematical Learning. IndoMS Journal of Mathematics Education, 4 (2): 151-159.
World Education Forum. 2015. Education 2030: Towards inclusive and equitable quality education and lifelong learning for all. Paris: Unesco.
Funny, R.A. 2014. Students’ Initial Understanding of The Concept of Conservation of Area. IndoMS Journal of Mathematics Education, 5 (1): 57-65.
Grandgenett, N., Harris, J., & Hofer, M. 2009. Mathematics learning activity types. Retrieved from College of William and Mary, School of Education, Learning Activity Types (diakses pada Wiki: http://activitytypes.wmwikis.net/file/view/MathLearningATs-Feb09.pdf).
Julie, H., St. Suwarsono, dan Juniati, D. 2014. Understanding Profile From The Philosophy, Principles, And Characteristics Of RME. IndoMS Journal of Mathematics Education, 5 (2): 148-159.
Kurniati, Kusumah, Y.S., Sabandar, J., dan Herman, T. 2015. Mathematical Critical Thinking Ability Through Contextual Teaching and Learning Approach. IndoMS Journal of Mathematics Education, 6 (1): 53-62.
Murni, A., Sabandar, J., Kusumah, Y.S., dan Kartasamita, B.G. 2013. The Enhancement of Junior High School Students’ Abilities In Mathematical Problem Solving Using Soft Skill-Based Metacognitive Learning. IndoMS Journal of Mathematics Education 4 (2): 194-203.
NEA. 2011. Preparing 21st Century Students for a Global Society: An Educator’s Guide to the “Four Cs”. Washington: NEA
Pacific Policy Research Center. 2010. 21st Century Skills for Students and Teachers. Honolulu: Kamehameha Schools, Research & Evaluation Division.
Palinussa, A.L. 2013. Students’ Critical Mathematical Thinking Skills and Character: Experiments for Junior High School Students through Realistic Mathematics Education Culture-Based. IndoMS Journal of Mathematics Education. 4 (1): 75 - 94.
Partnership for 21st Century Skills. 2011. 21st Century Skills Map: Math. Washington: P21.org
Putra, M., dan Novita, R. 2015. Profile of Secondary School Students With High Mathematics Ability in Solving Shape and Space Problem. IndoMS Journal of Mathematics Education, (6) 1: 20-30.
Qohar, A., dan Sumarmo, U. 2013. Improving Mathematical Communication Ability and Self Regulation Learning of Yunior High Students by Using Reciprocal Teaching. IndoMS Journal of Mathematics Education, 4 (1): 59-74.
Rasiman. 2015. Leveling of Critical Thinking Abilities of Students of Mathematics Education in Mathematical Problem Solving. IndoMS Journal of Mathematics Education, 6 (1): 40-52.
Stephan, M.L., Fish, M.C., Chval, K.B., Herbel-Eisenmann, B., Wanko, J.J., Konold, C., Civil, M., dan Wilkerson, T.L. 2015. Grand Challenges and Opportunities in Mathematics Education Research. Journal for Research in Mathematics Education, 46 (2): 134 – 146.
Widjaja, W. 2013. The Use of Contextual Problems to Support Mathematical Learning. IndoMS Journal of Mathematics Education, 4 (2): 151-159.
World Education Forum. 2015. Education 2030: Towards inclusive and equitable quality education and lifelong learning for all. Paris: Unesco.
Published
2018-05-31
How to Cite
Gunawan, I., & Sukmana, N. (2018). Isu-isu dan Tren Aktivitas Siswa dalam Belajar Matematika. Primaria Educationem Journal (PEJ), 1(1), 36-43. Retrieved from http://journal.unla.ac.id/index.php/pej/article/view/1070
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