TY - JOUR
T1 - Developing Explanations and Developing Understanding
T2 - Students Explain the Phases of the Moon Using Visual Representations
AU - Parnafes, Orit
N1 - Funding Information:
I thank Andy diSessa for the discussions that stimulated the notions of range and resolution that I have developed here. I am deeply grateful to Mariana Levin, Andy diSessa, Jack Smith, and two anonymous reviewers for their critical readings of multiple versions of the article and their valuable suggestions. I also thank David Hammer, Billie Eilam, and Yael Kali for their feedback on an earlier version. I appreciate the productive discussion with the Patterns Group at UC Berkeley, and thank Colleen Lewis, Lauren Barth-Cohen, and Janet Casperson for their useful comments. I am thankful for the partnership and support of the Student-Generated Representation research group at Tel-Aviv University, Tali Aderet-German, Efrat Toov Ward, and Rotem Trachtenberg, and for their help in conducting this research. The research was partly supported by a grant to the author by the Tel-Aviv University Foundation for Research Promotion and by a grant to the author from the Spencer Foundation.
PY - 2012/10/1
Y1 - 2012/10/1
N2 - This article presents a theoretical model of the process by which students construct and elaborate explanations of scientific phenomena using visual representations. The model describes progress in the underlying conceptual processes in students' explanations as a reorganization of fine-grained knowledge elements based on the Knowledge in Pieces perspective. The core case study involved a pair of fifth-grade students who generated visual representations to explain the phases of the moon and collaboratively elaborated and improved their representations and explanations. The model describes the process of developing explanations as iterations of temporarily stable stages of coherence. The progression from one temporary coherent structure to the next is described as the increase of Resolution and/or Range of the explanation. Resolution and Range are newly defined theoretical constructs. The model accounts for the continuity in the students' developing understanding and highlights the productive nature of their intuitive knowledge resources.
AB - This article presents a theoretical model of the process by which students construct and elaborate explanations of scientific phenomena using visual representations. The model describes progress in the underlying conceptual processes in students' explanations as a reorganization of fine-grained knowledge elements based on the Knowledge in Pieces perspective. The core case study involved a pair of fifth-grade students who generated visual representations to explain the phases of the moon and collaboratively elaborated and improved their representations and explanations. The model describes the process of developing explanations as iterations of temporarily stable stages of coherence. The progression from one temporary coherent structure to the next is described as the increase of Resolution and/or Range of the explanation. Resolution and Range are newly defined theoretical constructs. The model accounts for the continuity in the students' developing understanding and highlights the productive nature of their intuitive knowledge resources.
UR - http://www.scopus.com/inward/record.url?scp=84867519728&partnerID=8YFLogxK
U2 - 10.1080/07370008.2012.716885
DO - 10.1080/07370008.2012.716885
M3 - Article
AN - SCOPUS:84867519728
SN - 0737-0008
VL - 30
SP - 359
EP - 403
JO - Cognition and Instruction
JF - Cognition and Instruction
IS - 4
ER -