Learning Quantum Physics: An Effort to Overcome the Difficulties of Changing Concepts in Atomic Model Materials
Abstract
The study of quantum physics becomes more difficult because of the concept of classical physics that has been firmly embedded in the student's cognitive system. The material of the atomic model is one of the key materials in understanding quantum physics where there is a paradigm of thinking from classical physics to quantum physics. This study aims to produce step of atomic model learning to form the concept of quantum physics is right on students through literature analysis method. Questions about the cognitive theory of concepts become the main reference in the design of the steps (syntax) of learning the atomic model.
References
Sund R B, Carin A A. Teaching Modern Science. Third Edition. Columbia: Bell & Howell Company. 1980
Trianto. Integrated Learning Model. Jakarta: Bumi Aksara. 2011
Sudjana N. The basics of the teaching and learning process. Bandung: Sinar Baru
Algensindo. 2002
Khristiani, Yeny. 2013. Analysis of Variety and Changes in Conception of Heat of Students of SMA Negeri 5 Malang. Thesis (Malang: State University of Malang).
Hidayat. 2013. Overcoming Misconceptions in Physics Subject. Jambi: Jambi University
Sugiyono. 2014. Community Responses to the Implementation of the 2013 Curriculum. Jakarta: Ministry of Education and Culture.
Dwi Pebriyanti, et al. 2015. Effectiveness of Conceptual Change Learning Model to Overcome Physics Misconceptions of Class X Students of SMAN 1 West Praya in the 2012/2013 Academic Year. Journal of Physics and Technology Education. Vol. 1 (1).
Ardian Asyhari, et al. 2016. Phet-based Conceptual Instruction Worksheet: Developing Teaching Materials to Construct Students' Concepts on the Photoelectric Effect. Scientific Journal of Physics Education. Vol. 5 (2).
Suratno, Tatang. 2008. Constructivism, Alternative Conceptions and Conceptual Change in Science Education. Journal of Basic Education. Number 10.
Fera Astutu, et al. 2016. Identification of Misconceptions and Their Causes in Xi Mia Class Students of SMA Negeri 1 Sukoharjo TP 2015/2016 on Stoichiometry Subject Matter. Journal of Physics Education. Vol. 5 (2).
Muhammad Habibbulloh, et al. 2017. Development of Guided Discovery Model Learning Tools based on Virtual Lab to Reduce Misconceptions of Vocational Students on the Topic of Photoelectric Effect. Journal of Education Research. Vol. 7 (1).
Nasrudin H, Utiya A. Improvement of Thinking Skills and Scientific Attitude Using The Implementation Of “Group-Investigation Cooperative Learning” Contextual Oriented At Acid, Base And Salt Topic In Junior High School. Proceedings of The 4th International Conference on Teacher Education; Join Conference UPI & UPSI Bandung, Indonesia, 2010.
Petri, J., & Niedderer*, H. 1998. A learning pathway in high-school level quantum atomic physics. International Journal of Science Education, 20(9), 1075-1088.
Schecker, H. 1985. Das Schülervorverständnis zur Mechanik. Eine Untersuchung in der Sekundarstufe II unter Einbeziehung historischer und wissenschaftstheoretischer Aspekte Students' prior understandings in mechanics]. Unpublished doctoral dissertation, University
of Bremen.
Meyling, H. 1990. Wissenschaftstheorie im Physikunterricht der gymnasialen Oberstufe. Das wissenschafts-theoretische Schülervorverständnis und der Versuch seiner Veränderung durch expliziten wissenschaftstheoretischen Unterricht. Unpublished doctoral dissertation, University of Bremen.
Niedderer, H., Bethge, T. and Cassens, H. 1990. A simplified quantum model: a teaching approach and evaluation of understanding. In P. L. Lijnse, P. Licht, W. de Vos and A. J. Waarlo (eds), Relating Macroscopic Phenomena to Microscopic Particles - A Central Problem in Secondary Science Education (Utrecht: CD-ß Press), 67-80.
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