Publication Summary
Interceptive timing is a fundamental ability underpinning numerous actions (e.g., ball catching), but its development and relationship with other cognitive functions remain poorly understood. Piaget suggested that children need to learn the physical rules that govern their environment before they can represent abstract concepts such as number and time. Thus, learning how objects move in space and time may underpin the development of related abstract representations (i.e., mathematics). To test this hypothesis, we captured objective measures of interceptive timing in 309 primary school children (5–11 years old), alongside scores for general motor skill and national standardized academic attainment. Bayesian estimation showed that interceptive timing (but not general motor capability) uniquely predicted mathematical ability even after we controlled for age, reading, and writing attainment. This finding demonstrates that interceptive timing is distinct from other motor skills with specificity in predicting childhood mathematical ability independently of other forms of attainment and motor capability.
CAER Authors
Dr. Katy Shire
Bradford Institute for Health Research - Programme Manager - Age of Wonder
Dr. Liam Hill
University of Leeds - Lecturer in Developmental Psychology
Dr. Faisal Mushtaq
University of Leeds - Associate Professor in Cognitive Neuroscience
Prof. Amanda Waterman
University of Leeds - Professor of Cognitive Development
Prof. Mark Mon-Williams
University of Leeds - Chair in Cognitive Psychology