Students’ dynamic communication while transforming mathematical representations in a dynamic geometry environment-Reference-Cited by-同舟云学术

Students’ dynamic communication while transforming mathematical representations in a dynamic geometry environment

Published:2024-05-22 Issue:4 Volume:56 Page:543-557
ISSN:1863-9690
Container-title:ZDM – Mathematics Education
language:en
Short-container-title:ZDM Mathematics Education

Author:

Bach Cecilie Carlsen^ORCID,Bergqvist Ewa^ORCID,Jankvist Uffe Thomas^ORCID

Abstract

AbstractIn mathematics, students’ abilities to make transformations between mathematical representations are fundamental. The recent implementation of digital technologies, such as Dynamic Geometry Environments (DGEs), have changed students’ access to mathematical representations by providing a variety of different representations, available just by pressing a button. Students use of a DGE may change their mathematical communication to become more dynamic and active. However, it is not clear how the use of DGEs and the change in communication style relate to more epistemological aspects of students’ mathematical work. This study, therefore, investigates the interplay between students’ dynamic mathematical communication and their transformations of mathematical representations when using a DGE from a competency perspective. Based on analyses of instances of lower secondary school students’ dynamic mathematical communication, findings indicate that students’ mathematical communication reflect the new ways of engaging with mathematical representations when using a DGE. Hence, the communication becomes dynamic. Theoretically, the complexity of having “continuous” transformations of mathematical representations may reduce the readiness of the mathematical communication competency. The “continuous” transformation may in fact cause students to unintentionally ascribe dynamic properties to mathematical representation.

Funder

Aarhus Universitet

Publisher

Springer Science and Business Media LLC

Link

https://link.springer.com/content/pdf/10.1007/s11858-024-01575-x.pdf

Reference24 articles.

1. Antonini, S., Baccaglini-Frank, A., & Lisarelli, G. (2020). From experiences in a dynamic environment to written narratives on functions. Digital Experiences in Mathematics Education, 6(1), 1–29. https://doi.org/10.1007/s40751-019-00054-3

2. Bach, C. C. (2022). Mathematical communication competency in settings involving a dynamic geometry environment - hope or hype? [Doctoral dissertation, Aarhus University]. Aarhus University.

3. Bach, C. C., Bergqvist, E., & Jankvist, U. T. (2022a). Mathematical communication when using DGE: Balancing between object and representations. In H.-G. Weigand, A. Donevska-Todorova. E. Faggiano, P. Iannone, J. Medová; M. Tabach, & M. Turgut (Eds.), MEDA3 Mathematics Education in Digital Age 3, Proceedings of the 13th ERME Topic Conference (ETC13) (pp. 88–95).

4. Bach, C. C., Gregersen, R. M., Pedersen, M. K., & Jankvist, U. T. (2022b). Networking practices in design research: refining design principles. In J. Hodgen, E. Geraniou, G. Bolondi, & F. Ferretti (Eds.), Proceedings of the Twelfth Congress of the European Society for Research in Mathematics Education (CERME12) (pp. 2922–2929). ERME and Free University of Bozen-Bolzano. http://erme.site/wp-content/uploads/2023/02/Proceedings_CERME12.pdf

5. Drijvers, P., Ball, L., Barzel, B., Heid, M. K., Cao, Y., & Maschietto, M. (2016). Uses of Technology in Lower secondary Mathematics education– a Concise Topical Survey. Springer. https://doi.org/10.1007/978-3-319-33666-4

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