Self‐generated analogies as a tool for constructing and evaluating explanations of scientific phenomena

How can students be taught to develop explanations for scientific phenomena on their own when their background knowledge is incomplete or poorly organized? Evidence from historical accounts of scientific discovery suggest that self-generated analogies—analogies produced by the learners themselves—are a tool by which individuals can generate, evaluate, and modify their own explanations. The central research questions for this study were: Can students use a series of self-generated analogies to bring about change in their understanding of a given scientific phenomenon, and what is the nature of the change in understanding? Participants were asked to create, apply, and modify their own analogies—as opposed to applying a specific analogy provided by an outsider—as a heuristic for constructing, evaluating, and modifying their own explanations for a given scientific phenomena. Nontrivial changes in explanation facilitated by the use of generative analogies were observed. Changes in understanding ranged from the emergence of new explanations to the raising of important questions about the nature of the phenomenon.

[1]  K. Holyoak,et al.  Schema induction and analogical transfer , 1983, Cognitive Psychology.

[2]  David M. Riefer,et al.  Analogies as an aid to understanding and memory , 1990 .

[3]  W. Leatherdale The role of analogy, model, and metaphor in science , 1974 .

[4]  P. Simons,et al.  Instructing With Analogies. , 1984 .

[5]  Donald A. Norman,et al.  Analogical Processes in Learning , 1980 .

[6]  George Polya,et al.  Induction and Analogy in Mathematics , 1954 .

[7]  R. Oppenheimer Analogy in science. , 1956 .

[8]  S. Vosniadou Analogical reasoning as a mechanism in knowledge acquisition: a developmental perspective , 1988 .

[9]  Stella Vosniadou,et al.  Similarity and analogical reasoning: Name index , 1989 .

[10]  Rand J. Spiro,et al.  Multiple analogies for complex concepts: antidotes for analogy-induced misconception in advanced knowledge acquisition , 1988 .

[11]  Ruth Stavy,et al.  Using analogy to overcome misconceptions about conservation of matter , 1991 .

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

[13]  John Clement,et al.  Observed Methods for Generating Analogies in Scientific Problem Solving , 1987, Cogn. Sci..

[14]  Stella Vosniadou,et al.  Similarity and analogical reasoning: Similarity and Analogical Reasoning , 1989 .

[15]  R. Dreistadt,et al.  An analysis of the use of analogies and metaphors in science. , 1968, The Journal of psychology.

[16]  D. Norman,et al.  To Ask a Question, One Must Know Enough to Know What Is Not Known. Report No. 7802. , 1978 .

[17]  Herbert A. Simon,et al.  Models of Competence in Solving Physics Problems , 1980, Cogn. Sci..