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Visuospatial pathways to mathematical achievement


Learning and Instruction Volume 62, Number 1, ISSN 0959-4752 Publisher: Elsevier Ltd


Children having better visuospatial working memory, or the capacity to store and manipulate visuospatial information, perform better in mathematics. Yet, the underlying mechanisms are not well understood. In this study, we proposed a pathway model which linked up visuospatial working memory and mathematical achievement through two routes: numerical magnitude representation and problem representation. The data were drawn from 541 children who were assessed in both Grades 1 and 2. Using path analysis, we found that the association between visuospatial working memory and mathematical achievement was mediated by the deployment of visuospatial processes for magnitude representation (magnitude representation pathway) as well as for problem representation in solving mathematical problems (problem representation pathway). Such findings offer an important framework for developing intervention strategies to help children with poor visuospatial working memory in learning mathematics.


Chan, W.W.L. & Wong, T.T.Y. (2019). Visuospatial pathways to mathematical achievement. Learning and Instruction, 62(1), 11-19. Elsevier Ltd. Retrieved December 14, 2019 from .

This record was imported from Learning and Instruction on April 7, 2019. Learning and Instruction is a publication of Elsevier.

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