Asia-Pacific Forum on Science Learning and Teaching, Volume 18, Issue 2, Article 18 (Dec., 2017)
Dumcho WANGDI, Paisan KANTHANG and Monamorn PRECHARATTANA
Development of a hands-on model embedded with guided inquiry laboratory to enhance students’ understanding of law of mechanical energy conservation

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References

Abdi, A. (2014). The effect of inquiry-based learning method on students’ academic achievement in science course. Universal Journal of Educational Research, 2(1), 37–41.

Abraham, M. et al. (1994). A cross-age study of the understanding of five concepts. Journal of Research in Science Teaching, 31(2), 147-165.

Ateş, Ö., & Eryilmaz, A. (2011). Effectiveness of hands-on and minds-on activities on students’ achievement and attitudes towards physics. Asia-Pacific Forum on Science. Learning and Teaching, 12(1), 1–22.

Bambill, H., Benito, M., & Garda, G. (2004). Investigation of conservation laws using a conical pendulum. European Journal of Physics, 25(1), 31–35.

Blosser, P. (1980). A critical review of the role of the laboratory in science teaching. ERIC Clearinghouse for Science Mathematics and Environmental Education.

Bryan, J. A. (2010). Investigating the conservation of mechanical energy using video analysis: four cases. Physics Education, 45(1), 50.

Brook, A., & Wells, P. (1988). Conserving the circus? An alternative approach to teaching and learning about energy. Physics Education, 23(2), 80–85.

Daane, A., Vokos, S., & Scherr, R. (2013). Conserving energy in physics and society: creating an integrated model of energy and the second law of thermodynamics. In AIP Conference Proceeding (Vol. 1513, pp. 114–117). Philadelphia: American Institute of Physics.

Dilles, Hughs & Shrestha (2009). Conservation of energy. Physics Lab 161, Section 205. Virginia: George Mason University.

Dimitrov, D. M., & Rumrill, J. (2003). Pretest-posttest designs and measurement of change. Work: A Journal of Prevention, Assessment and Rehabilitation, 20(2), 159–165.

Driver, R., & Warrington, L. (1985). Students’ use of the principle of energy conservation in problem situations. Physics Education, 20, 171–176.

Duran, L. B., McArthur, J., & Van Hook, S. (2004). Undergraduate students’ perceptions of an inquiry-based physics course. Journal of Science Teacher Education, 15(2), 155–171.

Featonby, D., & Jeskova, Z. (2012). Concerning the conservation of energy. Physics Education, 47, 782–783.

Feynman, R. P. (1963). The Feynman Lectures on Physics, Volume I (Vol. 1). New York: Addison-Wesley.

Flick, L. B. (1993). The meanings of hands-on science. Journal of Science Teacher Education, 4(1), 1–8.

Galeriu, C. (2013). An Arduino-controlled photogate. The Physics Teacher, 51(3), 156. https://doi.org/10.1119/1.4792011.

Harrison, A. G. (2001). How do teachers and textbook writers model scientific ideas for students? Research in Science Education, 31(3), 401–435.

Hassani, S. (2005). Santa Claus and the conservation of energy. Physics Education, 40(6), 579.

Haury, D. L., & Rillero, P. (1994). Perspectives of hands-on science teaching. Columbus: The ERIC Clearinghouse for Science, Mathematics and Environmental Education.

Herrmann-Abell, C. F., & DeBoer, G. E. (2011). Investigating students’ understanding of energy transformation, energy transfer, and conservation of energy using standards-based assessment items. In Annual Meeting of the National Association of Researchers in Science Teaching, Orlando, FL.

Hofstein, A., & Lunetta, V. (2004). The laboratory in science education: Foundations for the twenty-first century. Science Education, 88(1), 28–54.

Hofstein, A., & Mamlok-Naaman, R. (2007). The laboratory in science education: The state of the art. Chemistry Education Research and Practice, 8(2), 105–107.

Hwu, Y. P. (1980). Conservation of mechanical energy. Physics Education, 15(5), 293.

Jackson, J., & Wenning, C. J. (2010). Levels of inquiry: using inquiry spectrum learning sequences to teach science. Journal of Physics Teacher Education Online, 5(3), 11–20.

Jewett, J. (2008). Energy and the confused student II: systems. The Physics Teacher, 46(2), 81.

Koc, R., Okumus, R., & Özturk, B. (2013). Effect of cooperative learning model on science and technology laboratory practices lesson. International Journal on New Trends in Education and Their Implications, 4(4), 42–57.

Kolb, D. A. (1984). Experiential learning: Experience as the source of learning and development. New Jersey: Prentice Hall, Inc.

Li, C. (2012). Bowing effect on energy conservation in an incline experiment. Latin-American Journal of Physics Education, 6(1), 43-46.

May, A. (1936). The conservation of energy and momentum in elementary processes. Reports on Progress in Physics, 3(1), 89.

Millar, R. (2005). Teaching about energy. York: University of York.

Mweene, V., & Mumb, F. (2012). Understanding energy conservation: intersection between biological and everyday life contexts. In A. Zain Ahmed (Ed.), Energy Conservation.

National Research Council. (1996). National science education standards. Washington, D.C.: National Academy Press.

National Research Council. (2000). Inquiry and the National Science Education Standards a guide for teaching and learning. Washington, D.C.: National Academy Press.

Nivalainen, V., Asikainen, M., & Hirvonen, P. (2013). Open guided inquiry laboratory in physics teacher education. Journal of Science Teacher Education, 24(3), 449–474.

Needham, P. (2011). The principle of the conservation of energy. In Commentary on the Principles of Thermodynamics by Pierre Duhem (Vol. 277, pp. 51–64). Dordrecht: Springer Netherlands.

Ovwigho, B. O. (2013). Empirical demonstration of techniques for computing the discrimination power of a dichotomous item response test. Journal of Educational and Social Research, 3(2), 12–17.

Pande, S. S., Pande, S. R., Parate, V. R., Nikam, A. P., & Agrekar, S. H. (2013). Correlation between difficulty & discrimination indices of MCQs in formative exam in Physiology. South-East Asian Journal of Medical Education, 7(1), 45.

Rovinelli, R. J., & Hambleton, R. K. (1976). On the use of content specialists in the assessment of criterion-referenced test item validity. Retrieved from http://eric.ed.gov/?id=ED121845
Ruby, A. (2001). Hands-on science and student achievement. Santa Monica: RAND Graduate School.

Sabri, S. (2013). Item analysis of student comprehensive test for research in teaching beginner string ensemble using model based teaching among music students in public universities. International Journal of Education and Research, 1(12), 1–14.

Santos, F. C., Soares, V., & Tort, A. C. (2010). A note on the conservation of mechanical energy and the Galilean principle of relativity. European Journal of Physics, 31(4), 827–834. https://doi.org/10.1088/0143-0807/31/4/012.

Secker, C., & Lissitz, R. (1999). Estimating the impact of instructional practices on student achievement in science. Journal of Research in Science Teaching, 36, 1110–1126.

Sefton, I. (2004). Understanding energy. In Proceedings of 11th Biennial Science Teachers’ Workshop, the University of Sydney. University of Sydney.

Shields, J., & Webster, W. (1989). Conservation of mechanical energy and circulation in the theory of inviscid fluid sheets. Journal of Engineering Mathematics, 23(1), 1–15.

Solbes, J., Guisasola, J., & Tarín, F. (2009). Teaching energy conservation as a unifying principle in Physics. Journal of Science Education and Technology, 18(3), 265–274.

Solomon, J. (1985). Teaching the conservation of energy. Physics Education, 20, 165–170.

Speltini, C., & Ure, M. (2002). Conservation in physics teaching, history of science and in child development. Science & Education, 11(5), 475–486.

Tatar, E., & Oktay, M. (2007). Students misunderstanding of energy conservation. International Journal of Environmental & Science Education, 2(3), 79–81.

Tavakol, M., & Dennick, R. (2011). Making sense of Cronbach’s alpha. International Journal of Medical Education, 2, 53–55. https://doi.org/10.5116/ijme.4dfb.8dfd

Treagust, D. (1986). Evaluating students’ misconceptions by means of diagnostic multiple choice items. Research in Science Education, 16(1), 199–207.

Triona, L. M., & Klahr, D. (2007). Hands-on science: does it matter what students’ hands are on? The Science Education Review, 6(4), 126–130.

Trumper, R., Raviolo, A., & Maria Shnersch, A. (2000). A cross-cultural survey of conceptions of energy among elementary school teachers in training empirical results from Israel and Argentina. Teaching and Teacher Education, 16(7), 697–714.

Tsai, C. (2003). Taiwanese science students’ and teachers’ perceptions of the laboratory learning environments: Exploring epistemological gaps. International Journal of Science Education, 25(7), 847–860.

Tytler, R. (2007). Re-imagining science education: engaging students in science for Australia’s future. Camberwell, Victoria: ACER Press.

UNESCO. (2009). Current challenges in basic science education. Paris: UNESCO.

Wisniak, J. (2008). Conservation of energy. Educación Química, 159–171.

 


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