Description

Axonal Conduction Time and Human Cerebral Laterality-A Psychobiological Theory; takes a detailed look at the hypothesis that the psychological difference between the left and right hemispheres of the brain has a definite neurological basis. There is a multitude of literature concerning the difference between the two hemispheres of the brain but none which suggest a biological explanation. This book plugs that gap by making a connection between the psychological and the biological. Robert Miller has surveyed a wealth of material in researching his hypothesis, making it an essential review of the literature in this area which will be indispensable to workers in the fields of neuroscience, psychology, neurolinguistics, neuroanatomy, and neurocytology. This book takes a new and up-to-date look at the prominent theory that the left hemisphere is specialised for representing patterns extended in time whereas the right hemisphere represents simultaneous or 'spatial' patterns. What makes it unique in the field is that it looks at this theory from a neurobiological basis. It suggests that the difference resides in the range of conduction times in the axons connecting different regions of the cortex in each hemisphere. This hypothesis is discussed with respect to theoretical models of brain dynamics, and both gross and microscopic structure of the hemispheres. It deals with the psychological implications of the hypothesis for higher functions of the human cerebrum and outlines testable implications wherever Possible.

Axonal Conduction Time and Human Cerebral Laterality: A Psycological Theory

Product form

£210.34

Includes FREE delivery
Usually despatched within 4 days
Hardback by Robert Miller

1 in stock

Short Description:

Axonal Conduction Time and Human Cerebral Laterality-A Psychobiological Theory; takes a detailed look at the hypothesis that the psychological difference... Read more

    Publisher: Harwood-Academic Publishers
    Publication Date: 30/06/1996
    ISBN13: 9783718658657, 978-3718658657
    ISBN10: 3718658658

    Number of Pages: 262

    Non Fiction , Politics, Philosophy & Society

    Description

    Axonal Conduction Time and Human Cerebral Laterality-A Psychobiological Theory; takes a detailed look at the hypothesis that the psychological difference between the left and right hemispheres of the brain has a definite neurological basis. There is a multitude of literature concerning the difference between the two hemispheres of the brain but none which suggest a biological explanation. This book plugs that gap by making a connection between the psychological and the biological. Robert Miller has surveyed a wealth of material in researching his hypothesis, making it an essential review of the literature in this area which will be indispensable to workers in the fields of neuroscience, psychology, neurolinguistics, neuroanatomy, and neurocytology. This book takes a new and up-to-date look at the prominent theory that the left hemisphere is specialised for representing patterns extended in time whereas the right hemisphere represents simultaneous or 'spatial' patterns. What makes it unique in the field is that it looks at this theory from a neurobiological basis. It suggests that the difference resides in the range of conduction times in the axons connecting different regions of the cortex in each hemisphere. This hypothesis is discussed with respect to theoretical models of brain dynamics, and both gross and microscopic structure of the hemispheres. It deals with the psychological implications of the hypothesis for higher functions of the human cerebrum and outlines testable implications wherever Possible.

    Customer Reviews

    Be the first to write a review
    0%
    (0)
    0%
    (0)
    0%
    (0)
    0%
    (0)
    0%
    (0)

    Recently viewed products

    © 2025 Book Curl,

      • American Express
      • Apple Pay
      • Diners Club
      • Discover
      • Google Pay
      • Maestro
      • Mastercard
      • PayPal
      • Shop Pay
      • Union Pay
      • Visa

      Login

      Forgot your password?

      Don't have an account yet?
      Create account