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How the Human Mind Grounds Numerical Quantities on Space

Maria Dolores de Hevia

2021Child Development Perspectives23 citationsDOI

Abstract

Abstract The propensity to use a spatial framework to organize other pieces of information is a widespread phenomenon that permeates humans’ representation of diverse concepts, including numerical quantities. Developmental studies on numerical cognition have revealed that humans possess a system for abstract quantity representation that is functional at birth and connects to a spatial representation system. Human infants, children, and adults link increases and decreases in numerical quantity to corresponding increases and decreases of spatial extent, as well as to lateralized right/left spatial positions, respectively. In this article, I discuss the origins of number-space mappings, their presence throughout development, and their functional properties. I also argue that number-space mappings reflect inborn biases, possibly shared across other species, that support both efficient magnitude processing and serial learning.

Topics & Concepts

Representation (politics)Space (punctuation)Numerical cognitionCognitive psychologyPsychologySpatial cognitionSpatial abilityCognitionCognitive scienceMental representationComputer scienceTheoretical computer scienceDevelopmental psychologyNeuroscienceOperating systemPoliticsPolitical scienceLawCognitive and developmental aspects of mathematical skillsChild and Animal Learning DevelopmentMathematics Education and Teaching Techniques
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