Geophysical Fluid Dynamics
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Geophysical Fluid Dynamics
Understanding (almost) everything with rotating shallow water models
Zeitlin, Prof Vladimir
Oxford University Press
02/2018
512
Dura
Inglês
9780198804338
15 a 20 dias
1116
Descrição não disponível.
PART I: Modelling Large-Scale Oceanic and Atmospheric Flows: From Primitive to Rotating Shallow Water Equations and Beyond
1: Introduction
2: Primitive equations model
3: Simplifying primitive equations: rotating shallow water models and their properties
4: Wave motions in rotating shallow water with boundaries, topography, at the equator, and in laboratory
5: Getting rid of fast waves: slow dynamics
6: Vortex dynamics on the f- and beta- plane and wave radiation
7: Rotating shallow water models as quasilinear hyperbolic systems, and related numerical methods
PART II: Understanding Fundamental Dynamical Phenomena with Rotating Shallow Water Models
8: Geostrophic adjustment and wave-vortex (non)interaction
9: RSW modons, and their surprising properties. RSW turbulence
10: Instabilities of jets and fronts and their nonlinear evolution
11: Instabilities in cylindrical geometry: vortices and laboratory flows
12: Resonant wave interactions and resonant excitation of waveguide modes
13: Wave turbulence
PART II: Generalisations of Standard Rotating Shallow-Water Model, and Their Applications
14: Rotating shallow-water models with horizontal density and/or temperature gradients
15: Rotating shallow-water models with moist convection
16: Rotating shallow-water models with full Coriolis force
1: Introduction
2: Primitive equations model
3: Simplifying primitive equations: rotating shallow water models and their properties
4: Wave motions in rotating shallow water with boundaries, topography, at the equator, and in laboratory
5: Getting rid of fast waves: slow dynamics
6: Vortex dynamics on the f- and beta- plane and wave radiation
7: Rotating shallow water models as quasilinear hyperbolic systems, and related numerical methods
PART II: Understanding Fundamental Dynamical Phenomena with Rotating Shallow Water Models
8: Geostrophic adjustment and wave-vortex (non)interaction
9: RSW modons, and their surprising properties. RSW turbulence
10: Instabilities of jets and fronts and their nonlinear evolution
11: Instabilities in cylindrical geometry: vortices and laboratory flows
12: Resonant wave interactions and resonant excitation of waveguide modes
13: Wave turbulence
PART II: Generalisations of Standard Rotating Shallow-Water Model, and Their Applications
14: Rotating shallow-water models with horizontal density and/or temperature gradients
15: Rotating shallow-water models with moist convection
16: Rotating shallow-water models with full Coriolis force
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
PART I: Modelling Large-Scale Oceanic and Atmospheric Flows: From Primitive to Rotating Shallow Water Equations and Beyond
1: Introduction
2: Primitive equations model
3: Simplifying primitive equations: rotating shallow water models and their properties
4: Wave motions in rotating shallow water with boundaries, topography, at the equator, and in laboratory
5: Getting rid of fast waves: slow dynamics
6: Vortex dynamics on the f- and beta- plane and wave radiation
7: Rotating shallow water models as quasilinear hyperbolic systems, and related numerical methods
PART II: Understanding Fundamental Dynamical Phenomena with Rotating Shallow Water Models
8: Geostrophic adjustment and wave-vortex (non)interaction
9: RSW modons, and their surprising properties. RSW turbulence
10: Instabilities of jets and fronts and their nonlinear evolution
11: Instabilities in cylindrical geometry: vortices and laboratory flows
12: Resonant wave interactions and resonant excitation of waveguide modes
13: Wave turbulence
PART II: Generalisations of Standard Rotating Shallow-Water Model, and Their Applications
14: Rotating shallow-water models with horizontal density and/or temperature gradients
15: Rotating shallow-water models with moist convection
16: Rotating shallow-water models with full Coriolis force
1: Introduction
2: Primitive equations model
3: Simplifying primitive equations: rotating shallow water models and their properties
4: Wave motions in rotating shallow water with boundaries, topography, at the equator, and in laboratory
5: Getting rid of fast waves: slow dynamics
6: Vortex dynamics on the f- and beta- plane and wave radiation
7: Rotating shallow water models as quasilinear hyperbolic systems, and related numerical methods
PART II: Understanding Fundamental Dynamical Phenomena with Rotating Shallow Water Models
8: Geostrophic adjustment and wave-vortex (non)interaction
9: RSW modons, and their surprising properties. RSW turbulence
10: Instabilities of jets and fronts and their nonlinear evolution
11: Instabilities in cylindrical geometry: vortices and laboratory flows
12: Resonant wave interactions and resonant excitation of waveguide modes
13: Wave turbulence
PART II: Generalisations of Standard Rotating Shallow-Water Model, and Their Applications
14: Rotating shallow-water models with horizontal density and/or temperature gradients
15: Rotating shallow-water models with moist convection
16: Rotating shallow-water models with full Coriolis force
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.