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Scaling, Self-similarity, and Intermediate Asymptotics

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Scaling, Self-similarity, and Intermediate Asymptotics

Scaling, Self-similarity, and Intermediate Asymptotics

Dimensional Analysis and Intermediate Asymptotics
Grigory Isaakovich Barenblatt, University of Cambridge
December 1996
Paperback
9780521435222
£75.99
GBP
Paperback
    Description

    Scaling laws reveal the fundamental property of phenomena, namely self-similarity - repeating in time and/or space - which substantially simplifies the mathematical modelling of the phenomena themselves. This book begins from a non-traditional exposition of dimensional analysis, physical similarity theory, and general theory of scaling phenomena, using classical examples to demonstrate that the onset of scaling is not until the influence of initial and/or boundary conditions has disappeared but when the system is still far from equilibrium. Numerous examples from a diverse range of fields, including theoretical biology, fracture mechanics, atmospheric and oceanic phenomena, and flame propagation, are presented for which the ideas of scaling, intermediate asymptotics, self-similarity, and renormalisation were of decisive value in modelling.

    • Multiple examples from various disciplines
    • Close link with such modern concepts of applied mathematics and theoretical physics as fractals, renormalization group
    • A practical guide to similarity analysis of new phenomena

    Reviews & endorsements

    'A splendid and very readable work … Greatly recommended!' Sjoerd Rienstra, ITW Nieuws

    See more reviews

    Product details

    December 1996
    Paperback
    9780521435222
    412 pages
    229 × 152 × 23 mm
    0.6kg
    Available

    Often bought together

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    This title is available for institutional purchase via Cambridge Core

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    Contents

    Table of Contents

    • Preface
    • Introduction
    • 1. Dimensions, dimensional analysis and similarity
    • 2. The application of dimensional analysis to the construction of intermediate asymptotic solutions to problems of mathematical physics. Self-similar solutions
    • 3. Self-similarities of the second kind: first examples
    • 4. Self-similarities of the second kind: further examples
    • 5. Classification of similarity rules and self-similarity solutions. Recipe for application of similarity analysis
    • 6. Scaling and transformation groups. Renormalization groups. 7. Self-similar solutions and travelling waves
    • 8. Invariant solutions: special problems of the theory
    • 9. Scaling in deformation and fracture in solids
    • 10. Scaling in turbulence
    • 11. Scaling in geophysical fluid dynamics
    • 12. Scaling: miscellaneous special problems.
      • Show more

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