From elementary to university students' ıdeas about causes of the seasons
DOI:
https://doi.org/10.36681/Keywords:
Cross-Age Study, Causes of the Seasons, Research into LearningAbstract
This research was a cross-age study that sought to determine and compare students’ ideas about the causes of the seasons. Toward this aim, the research was carried out with 974 students at different educational levels and across the various age groups. First, the data obtained from the responses to the open-ended question was categorized according to a rubric formulated in line with the goal of the study. The methodology used in analyzing the data derived from the interviews was a grouped categorization of those responses that were construed as having similar intended meanings. Statistically, a significant difference was found between the groups of university students aged 20-22 and the other groups of students who were between the ages of 10-19. In addition, whereas the frequency of encountering some misconceptions decreased with age, on the other hand, the frequency of other misconceptions showed an increase in older students. At the same time, there were some misconceptions which did not vary significantly in frequency across the age groups and still others that did show changes.
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References
Abraham, M.R., Williamson, V.M., & Westbrook, S.L. (1994). A cross-age study of the understanding of five concepts. Journals of Research in Science Teaching, 31(2), 147- 165.
Agan, L. (2004). Stellar ideas: Exploring students’ understanding of stars. Astronomy Education Review, 3(1), 77-97.
Atwood, R.K., & Atwood, V.A (1997). Effects of instruction on preservice elementary teachers’ conceptions of the causes of night and day and the seasons. Journal of Science Teacher Education, 8(1), 1-13.
Küçüközer, H. (2007). Prospective Science Teachers' Conceptions about Astronomical Subjects. Science Education International, 18 (2), 113-130.
Küçüközer, H. & Bostan, A. (2010). Ideas of Kindergarten Students' on the Day-Night Cycles, the Seasons and the Moon Phases. Journal of Theory and Practice in Education, 6 (2), 267-280.
Barnett, M., & Morran, J. (2002). Addressing children’s alternative frameworks of the moon’s phases and eclipses. International Journal of Science Education, 24(8), 859-879.
Baxter, J. (1989) Children’s understanding of familiar astronomical events. International Journal of Science Education, 11, 502-513.
Blanco, A., & Prieto, T. (1997). Pupils’ views on how stirring and temperature affect the dissolution of a solid in a liquid: a cross-age study (12 to 18). International Journal of Science Education, 19(3), 303-315.
Bryce, T.G.K., & MacMillan, K. (2009). Momentum and kinetic energy: Confusable concepts in secondary school physics. Journal of Research in Science Teaching, 46(7), 739-761.
Coll, R.K., & Treagust, D.F. (2003). Learners’ mental models of metallic bonding: A crossage study. Science Education, 87, 685-707.
Çakmakçı, G., Leach, J., & Donnelly, J. (2006). Students’ ideas about reaction rate and its relationship with concentration or pressure. International Journal of Science Education, 28(15), 1795-1815.
Çalık, M., & Ayas, A. (2005). A cross-age study on the understanding of chemical solutions and their components. International Education Journal, 6(1), 30-41.
Çepni, S., & Keleş, E. (2006). Turkish students’ conceptions about the simple electric circuits. International Journal of Science and Mathematics Education, 4, 269-291.
Dove, J. (2002). Does the man in the moon ever sleep? An analysis of students answers about simple astronomical events: A case study. International Journal of Science Education, 24(8), 823-834.
Duit, R. 2009, Bibliography – STCSE students’ and teachers’ conceptions and science education. Kiel, Germany: University of Kiel.
Dunlop, J. (2000). How children observe the universe. Electronic Publications of the Astronomical Society of Australia, 17(2), 194-206.
Eaton, J.F., Anderson, C.W., & Smith, E.L. (1984). Students’ misconceptions interfere with science learning: Case studies of fifth-grade students. The Elementary School Journal, 84 (4), 365-379.
Gay, L.R., & Airasian, P. (2000). Educational Research: Competencies for Analysis and Application (6th ed.). New Jersey: Prentice-Hall, Inc.
Gilbert, J.K., Osborne, R.J., & Fensham, P.J. (1982). Children's science and its consequences for teaching. Science Education, 66 (4), 623-633.
Helm, H. (1980). Misconceptions in physics amongst South African students. Physics Education, 15, 92-98.
Helm, H., & Novak, J.D. (Ed.). (1983). Proceedings of the International Seminar on Misconceptions in Science and Mathematics Conference, June 1983. Ithaca, NY: Cornell University, Department of Education.
Hewson, M.G., & Hewson, P.W. (1983). Effect of instruction using students’ prior knowledge and conceptual change strategies on science learning. Journal of Research in Science Teaching, 20(8), 731-743.
Hewson, P.W. & Hewson, M.G. (1984). The role of conceptual conflict in conceptual change and the design of science education. Instructional Science, 13(1), 1-13.
Hsu, Y.S. (2008). Learning about seasons in a technologically enhanced environment: the impact of teacher-guided and student-centered instructional approaches on the process of students’ conceptual change. Science Education, 92, 320-344.
Ivowi, U. (1984). Misconceptions in physics amongst Nigerian secondary school students. Physics Education, 19, 279-285.
Klammer, J. (1998). An Overview of Techniques for Identifying, Acknowledging and Overcoming Alternative Conceptions in Physics Education, Alternate Conceptions in Physics, 39s, 1997-98 Klingenstein Project Paper, Teachers Collage, Columbia University.
Krnel, D., Glazar, S.S., & Watson, R. (2003). The development of the concept of “matter”: A cross- age study of how children classify materials. Science Education, 87, 621-639.
Özdemir, G., & Clark, D. (2009). Knowledge structure coherence in Turkish students’ understanding of force. Journal of Research in Science Teaching, 46(5), 570-596.
Plummer, J.D. (2009). A cross-age study of children’s knowledge of apparent celestial motion. International Journal of Science Education, 31(12), 1571-1605.
Sadler, P. (1992). The initial knowledge state of high school astronomy students. A Dissertation Presented to the Faculty of the Graduate School of Education of Harvard University in Partial Fulfillment of the Requirements for the Degree of Doctor of Education.
Sharp, J. (1996). Children’s astronomical beliefs: A preliminary study of year 6 children in south-west England. International Journal of Science Education, 18(6), 685-712.
Strike, K.A., & Posner, G.J. (1992). A revisionist theory of conceptual change. In R.A. Duschl & R.J. Hamilton (Eds.), Philosophy of Science, Cognitive Psychology and Educational Theory and Practice (pp. 147-176). NY: State University of New York Press.
Trumper, R. (2000). University students’ conceptions of basic astronomy concepts. Physics Education, 35(1), 9-15.
Trumper, R. (2001). A cross-age study of senior high school students’ conceptions of basic astronomy concepts. Research in Science & Technological Education, 19(1), 97-109
Tsai, C.C., &. Chang, C.Y. (2005). Lasting effects of instruction guided by the conflict map: Experimental study of learning about the causes of the seasons. Journal of Research in Science Teaching, 42(10), 1089-1111.
Thomas, J.R., Nelson, J.K., & Silverman, S.J. (2005). Research Methods in Physical Activity. (5th ed.), Human Kinetics, America.
Ültay, N., & Ültay, E. (2009). A cross-age study on the development of “chemistry” concept through different grades: 7th, 9th and 11th grades. Eurasian Journal of Physics and Chemistry Education, 1(2), 52-69.
Westbrook, S.L., & Marek, E.A. (1991). A cross-age study of student understanding of the concept of diffusion. Journal of Research in Science Teaching, 28(8), 649-660.
Wild, T.A., & Trundle, K.C. (2010). Conceptual understandings of seasonal change by middle school students with visual impairments. Journal of Visual Impairment and Blindness 104, 107.
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