针对特定领域的抑制控制训练,提高儿童对数学和科学中反直觉概念的学习能力。

Hannah R Wilkinson, Claire Smid, Su Morris, Emily K Farran, Iroise Dumontheil, Sveta Mayer, Andrew Tolmie, Derek Bell, Kaśka Porayska-Pomsta, Wayne Holmes, Denis Mareschal, Michael S C Thomas
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引用次数: 0

摘要

认知神经科学的证据表明,学习数学和科学中的反直觉概念需要抑制控制(IC)。这可以防止误导性知觉线索和儿童从其世界经验中建立的幼稚理论的干扰。在此,我们(1)研究了抑制控制、反直觉推理和学业成绩之间的关联;(2)评估了一种基于课堂的计算机化干预措施,名为 "停一停,想一想",旨在将抑制控制训练嵌入学习领域(即学校课程中的数学和科学内容)。对 627 名三、五年级儿童(7 至 10 岁)的数据进行的横截面分析表明,在类似 Stroop 的任务中测量的 IC 与反直觉推理、数学和科学成绩有关。一个子样本(n = 456)参加了 "停一停,想一想 "全班活动(教师主导,STT)或使用个人电脑(学生主导,STP),或照常教学(TAU)。对于三年级的孩子(但不是五年级),与 TAU 相比,Stop & Think 在 STT(p p 2 = .067)和 STP(p p 2 = .041)中提高了反直觉推理(即接近转移)的能力。没有三年级 STP 和五年级 STT 的成绩数据。就三年级而言,STT 比 TAU 的科学成绩更好(即转学更远)(p p 2 = .077)。而对类似于 Stroop 的 IC 测量则没有迁移。总之,这些研究结果支持这样一种观点,即集成电路可能有助于反直觉推理以及数学和科学成绩。此外,我们还提供了初步证据,证明针对特定领域的集成电路干预对三年级儿童的学业成绩具有可迁移的益处。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Domain-Specific Inhibitory Control Training to Improve Children's Learning of Counterintuitive Concepts in Mathematics and Science.

Domain-Specific Inhibitory Control Training to Improve Children's Learning of Counterintuitive Concepts in Mathematics and Science.

Domain-Specific Inhibitory Control Training to Improve Children's Learning of Counterintuitive Concepts in Mathematics and Science.

Domain-Specific Inhibitory Control Training to Improve Children's Learning of Counterintuitive Concepts in Mathematics and Science.

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, ηp 2 = .067) and STP (p < .01, ηp 2 = .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, ηp 2 = .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.

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