Consistencies far beyond chance: an analysis of learner preconceptions of reflective symmetry

This article reports on regularities observed in learners' preconceptions of reflective symmetry. Literature suggests that the very existence of such regularities indicates a gap between what learners know and what they need to know. Such a gap inhibits further understanding and application, an...

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Bibliographic Details
Main Authors: Michael Kainose Mhlolo, Marc Schafer
Format: Article
Language:English
Published: Education Association of South Africa 2013-01-01
Series:South African Journal of Education
Subjects:
Online Access:http://www.scielo.org.za/scielo.php?script=sci_arttext&pid=S0256-01002013000200003
Description
Summary:This article reports on regularities observed in learners' preconceptions of reflective symmetry. Literature suggests that the very existence of such regularities indicates a gap between what learners know and what they need to know. Such a gap inhibits further understanding and application, and hence needed to be investigated. A total of 235 Grade 11 learners, from 13 high schools that participate in the First Rand Foundation-funded Mathematics Education project in the Eastern Cape, responded to a task on reflective symmetry. Our framework for analysing the responses was based on the taxonomy of structure of the observed learning outcome. The results indicated that 85% of learner responses reflect a motion understanding of reflections, where learners considered geometric figures as physical motions on top of the plane. While this understanding is useful in some cases, it is not an essential aspect of mapping understanding, which is critical for application in function notations and other analytical geometry contexts. We suggest that if this gap is to be closed, learners need to construct these reflections physically so that they may think of reflections beyond motion.
ISSN:0256-0100
2076-3433