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The Mathematical Brain Across the Lifespan: Progress in Brain Research, cartea 227

Marinella Cappelletti, Wim Fias
en Limba Engleză Hardback – 21 iun 2016
The Mathematical Brain Across the Lifespan is the latest volume in the Progress in Brain Research series that focuses on new trends and developments. This established international series examines major areas of basic and clinical research within the neurosciences, as well as popular and emerging subfields.


  • Provides a comprehensive review of the most recent progress in the mathematical brain across the lifespan
  • Explores new trends and developments in the field
  • Enhances the literature of neuroscience by further expanding the established, ongoing international series Progress in Brain Research
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Specificații

ISBN-13: 9780444636980
ISBN-10: 0444636986
Pagini: 416
Dimensiuni: 191 x 235 x 25 mm
Greutate: 1.07 kg
Editura: ELSEVIER SCIENCE
Seria Progress in Brain Research


Public țintă

Neuroscientists, psychologists, neurologists

Cuprins

1. Core mathematical abilities in infants: number and much more
  Maria Dolores de Hevia
2. Cognitive and Brain Systems Underlying Early Mathematical Development
  David Geary
3. Individual differences in children’s mathematics achievement: the roles of symbolic processing and domain-general cognitive functions
  Bert De Smedt
4. Foundations of mathematical abilities – towards understanding the neural coding of number in the human brain
  Evelyn Eger
5. Similarity interference in learning and retrieving arithmetic facts
  Alice De Visscher and Marie-Pascale Noël
6. Neurocomputational foundations of core mathematical abilities
  Marco Zorzi
7. The Number Interval Position Effect (NIPE) in the bisection of the mental number line reveals the nonlinear compressed scaling of numerical information: evidence from children, healthy adults and right brain damaged patients
  Fabrizio Doricchi
8. Strategic variations with age during arithmetic problem solving: The role of executive control
  Patrick Lemaire
9. Evolutionary basis of arithmetical abilities
  Brian Butterworth
10. Memory and cognitive control systems and circuits in mathematical cognition and learning
  Vinod Menon
11. Brain stimulation and mathematical training: The contribution of core and non-core skills
  Chung Yen Looi and Roi Cohen Kadosh
12. What causes dyscalculia? The core number module impairment hypothesis
  Manuela Piazza
13. Working memory disruption in developmental dyscalculia
  Denes Szucs
14. Ordinality and the Number Symbol System: Evidence from brain and behaviour
  Daniel Ansari
15. The relationship between core cognitive abilities and early numeracy
  Daniel C. Hyde