Asia-Pacific Forum on Science Learning and Teaching, Volume 7, Issue 1, Article 4 (June, 2006) Muammer ÇALIK , Alipaşa AYAS and Richard K. COLL A constructivist-based model for the teaching of dissolution of gas in a liquid
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References
Ayas, A. (1995). An investigation of science curriculum development and implementation techniques: Evaluation of two contemporary approaches. Journal of Faculty of Education Hacettepe University, 11, 149-155.
Ayas, A., Çepni, S. & Akdeniz, A.R. (1993). Development of the Turkish secondary science curriculum. Science Education, 77 (4), 433-440.
Bodzin, A., Cates, W.M. ve Price, B. (2003). Formative evaluation of the exploring life curriculum: two year implementation fidelity findings. Paper presented at the Annual Meeting of the National Association for Research in Science Teaching, Philadelphia, PA.
Bodzin, A., Cates, W.M., Price, B. ve Pratt, K. (2003). Implementing a web-integrated high school biology Program. National Educational Computing Conference, Seattle, WA.
Çalik, M., Ayas, A. & Ebenezer, J.V. (2005). A review of solution chemistry studies: Insights into students’ conceptions. Journal of Science Education and Technology, 14(1), 29-50.
Çepni, S. (2006). Evaluating student’s performance. Science Teaching Notes, Karadeniz Technical University, Trabzon.
Driver, R., Asoko, H., Leach, J., Mortimer, E., & Scott, P. (1994). Constructing scientific knowledge in the classroom. Educational Researcher, 23, 5-12.
Haidar, A.H. (1997). Prospective chemistry teachers’ conceptions of the conservation matter and related concepts. Journal of Research in Science Teaching, 34(2), 181-197.
Hawkes, S.J. (1996). Salts are mostly NOT ionised. Journal of Chemical Education, 73(5), 421-423.
Kim, S. & Van Dusen, L.M. (1998). The role of prior knowledge and elaboration in text comprehension and memory: A comparison of self-generated and text provided elaboration. American Journal of Psychology, 111, 353-378.
Kurt, S. & Akdeniz, A.R. (2002). Implementing the developed work sheets related to ‘energy’ topic in context of ‘Physics Teaching’. Paper presented at Fifth National Science and Mathematics Education Symposium, METU, Ankara, TURKEY.
Niaz, M. (2001). A rational reconstruction of the origin of the covalent bond and its implications for general chemistry textbooks. International Journal of Science Education, 23(6), 623-644.
Pfundt, H., & Duit, R. (2000). Bibliography: Student's alternative frameworks and science education (5th edn.). Kiel, Germany: University of Kiel.
Pinarbasi, T. & Canpolat, N. (2003). Students’ understanding of solution chemistry concepts. Journal of Chemical Education, 80 (11), 1328-1332.
Rezai, A.R. ve Katz, L. (2002). Using computer-assisted instruction to compare the Inventive model and the radical constructivist approach to teaching physics. Journal of Science Education and Technology, 11 (4), 367-380.
Saka, A. (2001). Developing teacher guide materials for the unit of nervous and endocrine systems. Karadeniz Technical University, Graduate School of Natural and Applied Science, Unpublished Master Thesis, Trabzon, TURKEY.
Schmidt, H.J. (1997). Students’ misconceptions-looking for a pattern. Science Education, 81, 123-135.
Spilich, G.J., Vesonder, G.T., Chiesi, H.L. & Voss, J.F. (1979). Text processing of domain-related information for individuals with high and low domain knowledge. Journal of Verbal Learning and Verbal Behavior, 18, 275-290.
Stavy, R. (1991). Using analogy to overcome misconceptions about conservation of matter. Journal of Research in Science Teaching, 28, 305-313.
Taber, K.S. (1995). An analogy for discussing progression in learning chemistry. School Science Review, 76(276), 91-95.
Vosniadou, S., & Brewer, W. F. (1987). Theories of knowledge restructuring in development. Review of Educational Research, 57, 51–67.
Wheatley, G.H. (1991). Constructivist perspectives on science and mathematics learning. Science Education, 75(1), 9-21.
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