Building Blocks of Mathematical Learning: Virtual and Tangible Manipulatives Lead to Different Strategies in Number Composition

Multiple kinds of manipulatives, such as traditional, virtual, or technology-enhanced tangible objects, can be used in primary education to support the acquisition of mathematical concepts. They enable playful experiences and help children understand abstract concepts, but their connection with cogn...

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Main Authors: Ana Cristina Pires, Fernando González Perilli, Ewelina Bakała, Bruno Fleisher, Gustavo Sansone, Sebastián Marichal
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-09-01
Series:Frontiers in Education
Subjects:
Online Access:https://www.frontiersin.org/article/10.3389/feduc.2019.00081/full
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spelling doaj-d6e1423c7c4146d48a318b1becc702d32020-11-25T00:41:01ZengFrontiers Media S.A.Frontiers in Education2504-284X2019-09-01410.3389/feduc.2019.00081419770Building Blocks of Mathematical Learning: Virtual and Tangible Manipulatives Lead to Different Strategies in Number CompositionAna Cristina Pires0Ana Cristina Pires1Fernando González Perilli2Fernando González Perilli3Ewelina Bakała4Bruno Fleisher5Bruno Fleisher6Gustavo Sansone7Sebastián Marichal8LASIGE, Faculty of Sciences, Universidade de Lisboa, Lisbon, PortugalFaculty of Psychology, Center for Basic Research in Psychology, Universidad de la República, Montevideo, UruguayFaculty of Psychology, Center for Basic Research in Psychology, Universidad de la República, Montevideo, UruguayFaculty of Information and Communication, Universidad de la República, Montevideo, UruguayFaculty of Engineering, Computer Science Institute, Universidad de la República, Montevideo, UruguayFaculty of Psychology, Center for Basic Research in Psychology, Universidad de la República, Montevideo, UruguayFaculty of Information and Communication, Universidad de la República, Montevideo, UruguayFaculty of Architecture, Universidad de la República, Montevideo, UruguayDepartment of Information and Communication Technologies, Universitat Pompeu Fabra, Barcelona, SpainMultiple kinds of manipulatives, such as traditional, virtual, or technology-enhanced tangible objects, can be used in primary education to support the acquisition of mathematical concepts. They enable playful experiences and help children understand abstract concepts, but their connection with cognitive development is not totally clear. It is also not clear how virtual and physical materials influence the development of different strategies for solving instructional tasks. To shed light on these issues, we conducted a 13-day intervention with 64 children from first grade, divided into three groups: Virtual Interaction (VI), Tangible Interaction (TI), and Control Group (CO). The VI group played a fully digital version of a mathematics video game and the manipulation of the blocks took place on the tablet screen. The TI group played the same video game with digitally augmented tangible manipulatives. Finally, the CO group continued with their classroom curricular activities while we conducted the training, and only participated in the Pre and Post-Test evaluations. Our results highlighted that the use of tangible manipulatives led to a positive impact in children's mathematical abilities. Of most interest, we recorded children's actions during all the training activities, which allowed us to achieve a refined analysis of participants' operations while solving a number composition task. We explored the differences between the use of virtual and tangible manipulatives and the strategies employed. We observed that the TI group opted for a greater number of blocks in the number composition task, whereas the VI group favored solutions requiring fewer blocks. Interestingly, those children whose improvement in mathematics were greater were the ones employing a greater number of blocks. Our results suggest that tangible interactive material increases action possibilities and may also contribute to a deeper understanding of core mathematical concepts.https://www.frontiersin.org/article/10.3389/feduc.2019.00081/fulldigital manipulativestangible manipulativestechnology-enhanced learning activitiesmathematicsadditive composition
collection DOAJ
language English
format Article
sources DOAJ
author Ana Cristina Pires
Ana Cristina Pires
Fernando González Perilli
Fernando González Perilli
Ewelina Bakała
Bruno Fleisher
Bruno Fleisher
Gustavo Sansone
Sebastián Marichal
spellingShingle Ana Cristina Pires
Ana Cristina Pires
Fernando González Perilli
Fernando González Perilli
Ewelina Bakała
Bruno Fleisher
Bruno Fleisher
Gustavo Sansone
Sebastián Marichal
Building Blocks of Mathematical Learning: Virtual and Tangible Manipulatives Lead to Different Strategies in Number Composition
Frontiers in Education
digital manipulatives
tangible manipulatives
technology-enhanced learning activities
mathematics
additive composition
author_facet Ana Cristina Pires
Ana Cristina Pires
Fernando González Perilli
Fernando González Perilli
Ewelina Bakała
Bruno Fleisher
Bruno Fleisher
Gustavo Sansone
Sebastián Marichal
author_sort Ana Cristina Pires
title Building Blocks of Mathematical Learning: Virtual and Tangible Manipulatives Lead to Different Strategies in Number Composition
title_short Building Blocks of Mathematical Learning: Virtual and Tangible Manipulatives Lead to Different Strategies in Number Composition
title_full Building Blocks of Mathematical Learning: Virtual and Tangible Manipulatives Lead to Different Strategies in Number Composition
title_fullStr Building Blocks of Mathematical Learning: Virtual and Tangible Manipulatives Lead to Different Strategies in Number Composition
title_full_unstemmed Building Blocks of Mathematical Learning: Virtual and Tangible Manipulatives Lead to Different Strategies in Number Composition
title_sort building blocks of mathematical learning: virtual and tangible manipulatives lead to different strategies in number composition
publisher Frontiers Media S.A.
series Frontiers in Education
issn 2504-284X
publishDate 2019-09-01
description Multiple kinds of manipulatives, such as traditional, virtual, or technology-enhanced tangible objects, can be used in primary education to support the acquisition of mathematical concepts. They enable playful experiences and help children understand abstract concepts, but their connection with cognitive development is not totally clear. It is also not clear how virtual and physical materials influence the development of different strategies for solving instructional tasks. To shed light on these issues, we conducted a 13-day intervention with 64 children from first grade, divided into three groups: Virtual Interaction (VI), Tangible Interaction (TI), and Control Group (CO). The VI group played a fully digital version of a mathematics video game and the manipulation of the blocks took place on the tablet screen. The TI group played the same video game with digitally augmented tangible manipulatives. Finally, the CO group continued with their classroom curricular activities while we conducted the training, and only participated in the Pre and Post-Test evaluations. Our results highlighted that the use of tangible manipulatives led to a positive impact in children's mathematical abilities. Of most interest, we recorded children's actions during all the training activities, which allowed us to achieve a refined analysis of participants' operations while solving a number composition task. We explored the differences between the use of virtual and tangible manipulatives and the strategies employed. We observed that the TI group opted for a greater number of blocks in the number composition task, whereas the VI group favored solutions requiring fewer blocks. Interestingly, those children whose improvement in mathematics were greater were the ones employing a greater number of blocks. Our results suggest that tangible interactive material increases action possibilities and may also contribute to a deeper understanding of core mathematical concepts.
topic digital manipulatives
tangible manipulatives
technology-enhanced learning activities
mathematics
additive composition
url https://www.frontiersin.org/article/10.3389/feduc.2019.00081/full
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