Scaling, Self-similarity, and Intermediate Asymptotics
Scaling, Self-similarity, and Intermediate Asymptotics
$105.00
USDScaling (power-type) laws reveal the fundamental property of the phenomena--self similarity. Self-similar (scaling) phenomena repeat themselves in time and/or space. The property of self-similarity simplifies substantially the mathematical modeling of phenomena and its analysis--experimental, analytical and computational. The book begins from a non-traditional exposition of dimensional analysis, physical similarity theory and general theory of scaling phenomena. Classical examples of scaling phenomena are presented. It is demonstrated that scaling comes on a stage when the influence of fine details of initial and/or boundary conditions disappeared but the system is still far from ultimate equilibrium state (intermediate asymptotics). It is explained why the dimensional analysis as a rule is insufficient for establishing self-similarity and constructing scaling variables. Important examples of scaling phenomena for which the dimensional analysis is insufficient (self-similarities of the second kind) are presented and discussed. A close connection of intermediate asymptotics and self-similarities of the second kind with a fundamental concept of theoretical physics, the renormalization group, is explained and discussed. Numerous examples from various fields--from theoretical biology to fracture mechanics, turbulence, flame propagation, flow in porous strata, atmospheric and oceanic phenomena are presented for which the ideas of scaling, intermediate asymptotics, self-similarity and renormalization group were of decisive value in modeling.
- 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
Product details
December 1996Paperback
9780521435222
412 pages
229 × 152 × 23 mm
0.6kg
Available
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.
