The Effectiveness of Conflict Maps and the V-Shape Teaching Method in Science Conceptual Change among Eighth-Grade Students in Jordan

The purpose of the present study is to investigate the effectiveness of Conflict Maps and the V-Shape method as teaching methods in bringing about conceptual change in science among primary eighth-grade students in Jordan. A randomly selected sample (N=63) from the Bani Kenana region North of Jordan was randomly assigned to the two teaching methods (Conflict Maps, N=31; V-Shape, N=32). A conceptual multiple-choice test was developed to measure misconceptions regarding electric energy commonly held by eighth-grade students. The data gathered were statistically processed using SPSS software. The results indicated that both methods, Conflict Maps and the V-Shape method, were successful in bringing about conceptual changes in the students. At the same time, the results did not prove either method to be superior in facilitating conceptual shifts regarding electric energy in eighth-grade students. In light of earlier results, this study recommends that curriculum developers take into account teaching methods designed according to conceptual change models and organize training workshops for teachers to learn how to integrate Conflict Maps and the V-Shape method into their teaching. Furthermore, this study recommends that similar studies be conducted with various subjects.

[1]  John K. Gilbert,et al.  Mental models of electricity , 1999 .

[2]  Gregory G Passmore Using Vee diagrams to facilitate meaningful learning and misconception remediation in radiologic technologies laboratory education , 1998 .

[3]  M. Cosgrove,et al.  A study of science‐in‐the‐making as students generate an analogy for electricity , 1995 .

[4]  L. S. Vygotksy Mind in society: the development of higher psychological processes , 1978 .

[5]  B. Lazerick Third international mathematics and science study , 1997 .

[6]  M. Linn,et al.  Heat energy and temperature concepts of adolescents, adults, and experts: Implications for curricular improvements , 1994 .

[7]  Chin-Chung Tsai,et al.  Enhancing science instruction: the use of 'conflict maps' , 2000 .

[8]  Patricia E. Blosser Science Misconceptions Research and Some Implications for the Teaching of Science to Elementary School Students. ERIC/SMEAC Science Education Digest No. 1, 1987. , 1987 .

[9]  George L. Towne The Educational Journal. , 1909 .

[10]  C A Nelson,et al.  Learning to Learn , 2017, Encyclopedia of Machine Learning and Data Mining.

[11]  Lev Vygotsky Mind in society , 1978 .

[12]  Wolff-Michael Roth,et al.  Using Vee and Concept Maps in Collaborative Settings: Elementary Education Majors Construct Meaning in Physical Science Courses , 1993 .

[13]  Mustafa Baser,et al.  Effect of Conceptual Change Oriented Instruction on Students' Understanding of Heat and Temperature Concepts. , 2006 .

[14]  S. Çepni,et al.  Turkish Students' Conceptions about the Simple Electric Circuits , 2006 .

[15]  A. Ahlgren,et al.  Science for all Americans , 1990 .

[16]  Maher Z. Hashweh Toward an explanation of conceptual change , 1986 .

[17]  G. O. Esiobu,et al.  Effects of concept and vee mappings under three learning modes on students' cognitive achievement in ecology and genetics , 1995 .

[18]  Joseph D. Novak,et al.  Meaningful learning: The essential factor for conceptual change in limited or inappropriate propositional hierarchies leading to empowerment of learners , 2002 .

[19]  P. Hewson,et al.  Accommodation of a scientific conception: Toward a theory of conceptual change , 1982 .

[20]  Iman Osta,et al.  Students’ Alternative Conceptions about Electricity and Effect of Inquiry-Based Teaching Strategies , 2009 .

[21]  Joseph Nussbaum,et al.  Classroom conceptual change: philosophical perspectives , 1989 .

[22]  Teaching Geometric Optics: research, results and educational implications , 1995 .

[23]  Chin-Chung Tsai Using a conflict map as an instructional tool to change student alternative conceptions in simple series electric-circuits , 2003 .