Mark Rose Lewis scite author profile

What basic capacities lay the foundation for advanced numerical cognition? Are there basic nonsymbolic abilities that support the understanding of advanced numerical concepts, such as fractions? To date, most theories have posited that previously identified core numerical systems, such as the approximate number system (ANS), are ill-suited for learning fraction concepts. However, recent research in developmental psychology and neuroscience has revealed a ratio-processing system (RPS) that is sensitive to magnitudes of nonsymbolic ratios and may be ideally suited for supporting fraction concepts. We provide evidence for this hypothesis by showing that individual differences in RPS acuity predict performance on four measures of mathematical competence, including a university entrance exam in algebra. We suggest that the nonsymbolic RPS may support symbolic fraction understanding much as the ANS supports whole-number concepts. Thus, even abstract mathematical concepts, such as fractions, may be grounded not only in higher-order logic and language, but also in basic nonsymbolic processing abilities.

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Neurocognitive Architectures and the Nonsymbolic Foundations of Fractions Understanding

Lewis

Matthews

Hubbard

2016

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Fractions We Cannot Ignore: The Nonsymbolic Ratio Congruity Effect

Matthews

Lewis

2016

Cognitive Science

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Although many researchers theorize that primitive numerosity processing abilities may lay the foundation for whole number concepts, other classes of numbers, like fractions, are sometimes assumed to be inaccessible to primitive architectures. This research presents evidence that the automatic processing of nonsymbolic magnitudes affects processing of symbolic fractions. Participants completed modified Stroop tasks in which they selected the larger of two symbolic fractions while the ratios of the fonts in which the fractions were printed and the overall sizes of the compared fractions were manipulated as irrelevant dimensions. Participants were slower and less accurate when nonsymbolic dimensions of printed fractions were incongruent with the symbolic comparison decision. Results indicated a robust basic sensitivity to nonsymbolic ratios that exceeds prior conceptions about the accessibility of fraction values. Results also indicated a congruity effect for overall fraction size, contrary to findings of prior research. These findings have implications for extending theory about the nature of human number sense and mathematical cognition more generally.

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Modafinil improves rapid shifts of attention

et al. 2008

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Prereading Questions and Online Text Comprehension

Lewis

Mensink

2012

Discourse Processes

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Mark Rose Lewis

Individual Differences in Nonsymbolic Ratio Processing Predict Symbolic Math Performance

Neurocognitive Architectures and the Nonsymbolic Foundations of Fractions Understanding

Fractions We Cannot Ignore: The Nonsymbolic Ratio Congruity Effect

Modafinil improves rapid shifts of attention

Prereading Questions and Online Text Comprehension

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