Wilkinson, H.R. and Smid, C. and Morris, Suzanne and Farran, E.K. and Dumontheil, Iroise and Mayer, S. and Tolmie, A. and Bell, D. and Porayska-Pomsta, K. and Holmes, W. and Mareschal, Denis and Thomas, Michael S.C. (2019) Domain-specific inhibitory control training to improve children’s learning of counterintuitive concepts in Mathematics and Science. Journal of Cognitive Enhancement , ISSN 2509-3290.
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Abstract
Evidence from cognitive neuroscience suggests that learning counterintuitive concepts in mathematics and science requires inhibitory control (IC). This prevents interference from misleading perceptual cues and naïve theories children have built from their experiences of the world. Here, we (1) investigate associations between IC, counterintuitive reasoning, and academic achievement and (2) evaluate a classroom-based computerised intervention, called Stop & Think, designed to embed IC training within the learning domain (i.e. mathematics and science content from the school curricula). Cross-sectional analyses of data from 627 children in Years 3 and 5 (7- to 10-year-olds) demonstrated that IC, measured on a Stroop-like task, was associated with counterintuitive reasoning and mathematics and science achievement. A subsample (n = 456) participated either in Stop & Think as a whole-class activity (teacher-led, STT) or using individual computers (pupil-led, STP), or had teaching as usual (TAU). For Year 3 children (but not Year 5), Stop & Think led to better counterintuitive reasoning (i.e. near transfer) in STT (p < .001, ηp2 = .067) and STP (p < .01, ηp2 = .041) compared to TAU. Achievement data was not available for Year 3 STP or Year 5 STT. For Year 3, STT led to better science achievement (i.e. far transfer) compared to TAU (p < .05, ηp2 = .077). There was no transfer to the Stroop-like measure of IC. Overall, these findings support the idea that IC may contribute to counterintuitive reasoning and mathematics and science achievement. Further, we provide preliminary evidence of a domain-specific IC intervention with transferable benefits to academic achievement for Year 3 children.
Metadata
Item Type: | Article |
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School: | Birkbeck Faculties and Schools > Faculty of Science > School of Psychological Sciences |
Research Centres and Institutes: | Brain and Cognitive Development, Centre for (CBCD) |
Depositing User: | Administrator |
Date Deposited: | 19 Dec 2019 09:19 |
Last Modified: | 02 Aug 2023 17:56 |
URI: | https://eprints.bbk.ac.uk/id/eprint/30355 |
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