Adiabatic Invariants in Large-Scale Atmospheric Dynamics
Adiabatic Invariants in Large-Scale Atmospheric Dynamics deals with the main principles of large-scale atmospheric dynamics on the basis of adiabatic motion constants. It introduces the theory of quasi two-dimensional fluid motion, concentrating primarily on nearly horizontal fluid parcel displacements in a stably stratified compressible fluid. Coverage also includes a complete set of compressible fluid dynamic equations along with a survey of fluid dynamical conservation laws used in meteorology and atmospheric physics; the derivation of two-dimensional atmospheric models; and the principles of kinetic energy sinks and their relation to the energy balance in the atmosphere.
1101428943
Adiabatic Invariants in Large-Scale Atmospheric Dynamics
Adiabatic Invariants in Large-Scale Atmospheric Dynamics deals with the main principles of large-scale atmospheric dynamics on the basis of adiabatic motion constants. It introduces the theory of quasi two-dimensional fluid motion, concentrating primarily on nearly horizontal fluid parcel displacements in a stably stratified compressible fluid. Coverage also includes a complete set of compressible fluid dynamic equations along with a survey of fluid dynamical conservation laws used in meteorology and atmospheric physics; the derivation of two-dimensional atmospheric models; and the principles of kinetic energy sinks and their relation to the energy balance in the atmosphere.
84.99 In Stock
Adiabatic Invariants in Large-Scale Atmospheric Dynamics

Adiabatic Invariants in Large-Scale Atmospheric Dynamics

by Michael V. Kurgansky
Adiabatic Invariants in Large-Scale Atmospheric Dynamics

Adiabatic Invariants in Large-Scale Atmospheric Dynamics

by Michael V. Kurgansky

eBook

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Overview

Adiabatic Invariants in Large-Scale Atmospheric Dynamics deals with the main principles of large-scale atmospheric dynamics on the basis of adiabatic motion constants. It introduces the theory of quasi two-dimensional fluid motion, concentrating primarily on nearly horizontal fluid parcel displacements in a stably stratified compressible fluid. Coverage also includes a complete set of compressible fluid dynamic equations along with a survey of fluid dynamical conservation laws used in meteorology and atmospheric physics; the derivation of two-dimensional atmospheric models; and the principles of kinetic energy sinks and their relation to the energy balance in the atmosphere.

Product Details

ISBN-13: 9781134453986
Publisher: CRC Press
Publication date: 09/26/2002
Sold by: Barnes & Noble
Format: eBook
Pages: 240
File size: 4 MB

About the Author

Michael V. Kurgansky is Professor in the Department of Atmospheric and Oceanic Physics of the University of Concepcion, Chile. He is currently on leave from the Institute of Atmospheric Physics of the Russian Academy of Sciences where he has held various research posts since 1977. His research experience covers topics from dynamical J meteorology to geophysical fluid dynamics and his current research interests include the application of the fundamental concepts of Ertel's potential vorticity and of fluid dynamical (kinematic) helicicy to the analysis of atmospheric flows and phenomena.

Table of Contents

Preface. Introduction. Equations of Motion and Conservation Laws. Reduced Equations of Atmospheric Dynamics. Hydrodynamic Instability of Conservative Motions. Isentropic Analysis of Large-scale Processes. Dissipative Processes in the Atmosphere. Reference. Index.
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