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Virtual manipulatives and students’ counterexamples during proving

Virtual manipulatives and students’ counterexamples during proving
Virtual manipulatives and students’ counterexamples during proving
Counterexamples play a crucial role in the disciplinary practice of mathematics, and experiences with their use can enhance students’ engagement with mathematical practice and their learning of mathematical content. Although it is known that students encounter difficulties in producing and addressing counterexamples, and while there is evidence that incorporating appropriate computer technology into classroom tasks can improve the student experience, task design focusing on counterexamples is scarce in mathematics education research. In this chapter, we address such matters by employing a framework for research on computer-based virtual manipulatives to re-examine tasks that were designed using a set of design principles that included a key role for a dynamic geometry environment. Our analysis shows that the tasks, which were originally based on our theory-informed design principles, are further supported with the conceptual framework on virtual manipulatives. We also provide an empirical illustration of the affordances of the tasks with a task-based interview where undergraduate students successfully discovered and addressed counterexamples. An implication for mathematics education research is the importance of ensuring that task design is considered from various theoretical and conceptual perspectives in order to strengthen the theoretical underpinnings of the task design.
mathematics, education, proof
2211-8136
331-346
Springer
Komatsu, Kotaro
22446313-5c59-4d33-a7c2-94684615e98f
Jones, Keith
ea790452-883e-419b-87c1-cffad17f868f
Hanna, Gila
Reid, David
de Villiers, Michael
Komatsu, Kotaro
22446313-5c59-4d33-a7c2-94684615e98f
Jones, Keith
ea790452-883e-419b-87c1-cffad17f868f
Hanna, Gila
Reid, David
de Villiers, Michael

Komatsu, Kotaro and Jones, Keith (2019) Virtual manipulatives and students’ counterexamples during proving. In, Hanna, Gila, Reid, David and de Villiers, Michael (eds.) Proof Technology in Mathematics Research and Teaching. (Mathematics Education in the Digital Era, 14) Cham, CH. Springer, pp. 331-346. (doi:10.1007/978-3-030-28483-1_16).

Record type: Book Section

Abstract

Counterexamples play a crucial role in the disciplinary practice of mathematics, and experiences with their use can enhance students’ engagement with mathematical practice and their learning of mathematical content. Although it is known that students encounter difficulties in producing and addressing counterexamples, and while there is evidence that incorporating appropriate computer technology into classroom tasks can improve the student experience, task design focusing on counterexamples is scarce in mathematics education research. In this chapter, we address such matters by employing a framework for research on computer-based virtual manipulatives to re-examine tasks that were designed using a set of design principles that included a key role for a dynamic geometry environment. Our analysis shows that the tasks, which were originally based on our theory-informed design principles, are further supported with the conceptual framework on virtual manipulatives. We also provide an empirical illustration of the affordances of the tasks with a task-based interview where undergraduate students successfully discovered and addressed counterexamples. An implication for mathematics education research is the importance of ensuring that task design is considered from various theoretical and conceptual perspectives in order to strengthen the theoretical underpinnings of the task design.

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More information

Published date: 2 October 2019
Keywords: mathematics, education, proof
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Identifiers

Local EPrints ID: 446036
URI: http://eprints.soton.ac.uk/id/eprint/446036
DOI: doi:10.1007/978-3-030-28483-1_16
ISSN: 2211-8136
PURE UUID: a6ea7b5b-ce38-4853-9f1b-cfc0158a12cb
ORCID for Keith Jones: ORCID iD orcid.org/0000-0003-3677-8802

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Date deposited: 19 Jan 2021 17:33
Last modified: 16 Mar 2024 10:31

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Contributors

Author: Kotaro Komatsu
Author: Keith Jones ORCID iD
Editor: Gila Hanna
Editor: David Reid
Editor: Michael de Villiers

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