执行功能如何影响儿童对数学和科学中反直觉概念的推理?

IF 1.8 Q4 NEUROSCIENCES
Iroise Dumontheil, Hannah R. Wilkinson, Emily K. Farran, Claire Smid, Roshni Modhvadia, Denis Mareschal, Derek Bell, Annie Brookman-Byrne, Andrea Gauthier, Roos de Jong, Wayne Holmes, Sveta Mayer, Su Morris, Kaśka Porayska-Pomsta, Dilini Sumanapala, Michael Thomas, Andy Tolmie
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引用次数: 0

摘要

许多科学和数学概念是违反直觉的,因为它们与我们从日常世界经验中建立起来的误导性知觉线索或不正确的幼稚理论相冲突。执行功能(EFs)影响数学和科学成就,特别是抑制控制(IC)可能促进反直觉推理。停止,Think是一种计算机化的学习活动,用于训练集成电路技能。在一项大规模的随机对照试验中,它被发现对提高小学生的数学和科学学业成绩有效(Palak et al., 2019;Wilkinson et al., Journal of Cognitive Enhancement, 4,296 - 314,2020)。本研究旨在探讨ef在反直觉数学和科学推理中的作用,以及S&T训练的调节作用。372名3年级(7- 8岁)和5年级(9- 10岁)的儿童被分配到S&T、主动控制或正常教学组,并在训练前后完成评估语言和视觉空间工作记忆(WM)、IC、IQ和反直觉推理的任务。反直觉推理和EF之间的横断面关联在五年级儿童中被发现,有证据表明言语WM的特定作用。干预只对三年级儿童的反直觉推理有好处,EF测量并不能预测哪些儿童从干预中获益最多。结合之前的研究,这些结果表明,在年幼的儿童中,EF的个体差异对反直觉推理的影响较小,而年龄较大的儿童在EF和反直觉推理之间表现出更大的关联,并且能够将在S&T训练期间开发的策略应用于数学和科学科目。这项工作有助于理解为什么标普干预是有效的。该作品已于2017年10月10日在ISRCTN注册中心(TRN: 54726482)预注册。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
How Do Executive Functions Influence Children’s Reasoning About Counterintuitive Concepts in Mathematics and Science?
Abstract Many scientific and mathematical concepts are counterintuitive because they conflict with misleading perceptual cues or incorrect naive theories that we build from our everyday experiences of the world. Executive functions (EFs) influence mathematics and science achievement, and inhibitory control (IC), in particular, might facilitate counterintuitive reasoning. Stop & Think (S&T) is a computerised learning activity that trains IC skills. It has been found effective in improving primary children’s mathematics and science academic performance in a large scale RCT trial (Palak et al., 2019; Wilkinson et al., Journal of Cognitive Enhancement , 4 , 296–314, 2020). The current study aimed to investigate the role of EFs and the moderating effects of S&T training on counterintuitive mathematics and science reasoning. A sample of 372 children in school Years 3 (7- to 8-year-olds) and 5 (9- to 10-year-olds) were allocated to S&T, active control or teaching as usual conditions, and completed tasks assessing verbal and visuospatial working memory (WM), IC, IQ, and counterintuitive reasoning, before and after training. Cross-sectional associations between counterintuitive reasoning and EF were found in Year 5 children, with evidence of a specific role of verbal WM. The intervention benefited counterintuitive reasoning in Year 3 children only and EF measures were not found to predict which children would most benefit from the intervention. Combined with previous research, these results suggest that individual differences in EF play a lesser role in counterintuitive reasoning in younger children, while older children show a greater association between EFs and counterintuitive reasoning and are able to apply the strategies developed during the S&T training to mathematics and science subjects. This work contributes to understanding why specifically the S&T intervention is effective. This work was preregistered with the ISRCTN registry (TRN: 54726482) on 10/10/2017.
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来源期刊
CiteScore
4.50
自引率
9.10%
发文量
19
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