Andrew Majda, Xiaoming Wang

Nonlinear Dynamics and Statistical Theories for Basic Geophysical Flows

• Gebundenes Buch

Produktbeschreibung

Geophysical fluid dynamics illustrates the rich interplay between mathematical analysis, nonlinear dynamics, statistical theories, qualitative models and numerical simulations. This introduction is designed for a multi-disciplinary audience ranging from beginning graduate students to senior researchers. Basic ideas of geophysics, probability theory, information theory, nonlinear dynamics and equilibrium statistical mechanics are introduced and applied to large time-selective decay, the effect of large scale forcing, nonlinear stability, fluid flow on a sphere and Jupiter's Great Red Spot. It is the first book following this approach and contains many recent ideas and results.

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Produktdetails

• Verlag: Cambridge University Press
• Seitenzahl: 564
• Erscheinungstermin: 11. Mai 2006
• Englisch
• Abmessung: 250mm x 175mm x 35mm
• Gewicht: 1140g
• ISBN-13: 9780521834414
• ISBN-10: 0521834414
• Artikelnr.: 21077206

Autorenporträt

Andrew J. Majda is the Morse Professor of Arts and Sciences at the Courant Institute of New York University.

Inhaltsangabe

1. Barotropic geophysical flows and two-dimensional fluid flows: an elementary introduction
2. The Response to large scale forcing
3. The selective decay principle for basic geophysical flows
4. Nonlinear stability of steady geophysical flows
5. Topographic mean-flow interaction, nonlinear instability, and chaotic dynamics
6. Introduction to empirical statistical theory
7. Equilibrium statistical mechanics for systems of ordinary differential equations
8. Statistical mechanics for the truncated quasi-geostrophic equations
9. Empirical statistical theories for most probable states
10. Assessing the potential applicability of equilibrium statistical theories for geophysical flows: an overview
11. Predictions and comparison of equilibrium statistical theories
12. Equilibrium statistical theories and dynamical modeling of flows with forcing and dissipation
13. Predicting the jets and spots on Jupiter by equilibrium statistical mechanics
14. Statistically relevant and irrelevant conserved quantities for truncated quasi-geostrophic flow and the Burger-Hopf model
15. A mathematical framework for quantifying predictability utilizing relative entropy
16. Barotropic quasi-geostrophic equations on the sphere
Bibliography
Index.