Description

Book Synopsis
This book deals with the main principles of large-scale atmospheric dynamics on the basis of adiabatic motion constants. It can be considered as an introduction to the theory of quasi two-dimensional fluid motion concentrating primarily on nearly horizontal fluid parcel displacements in a stably stratified compressible fluid. A thorough mathematical treatment of the governing equations is coupled with a clear interpretation of the phenomena studied and accompanied by examples of real meteorological data analysis. Topics include a complete set of compressible fluid dynamic equations along with a survey on fluid dynamical conservation laws used in meteorology and atmospheric physics; the derivation of two-dimensional atmospheric models; large-scale flows; isentropic analysis of large-scale atmospheric processes; and the principles of kinetic energy sinks and their relation to the energy balance in the atmosphere.

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.

Adiabatic Invariants in LargeScale Atmospheric

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A Hardback by Michael V. Kurgansky

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    View other formats and editions of Adiabatic Invariants in LargeScale Atmospheric by Michael V. Kurgansky

    Publisher: CRC Press
    Publication Date: 9/26/2002 12:00:00 AM
    ISBN13: 9780415284158, 978-0415284158
    ISBN10: 0415284155
    Also in:
    Earth Sciences, Geography & Environment Meteorology and climatology Physical geography and topography Life sciences: general issues

    Description

    Book Synopsis
    This book deals with the main principles of large-scale atmospheric dynamics on the basis of adiabatic motion constants. It can be considered as an introduction to the theory of quasi two-dimensional fluid motion concentrating primarily on nearly horizontal fluid parcel displacements in a stably stratified compressible fluid. A thorough mathematical treatment of the governing equations is coupled with a clear interpretation of the phenomena studied and accompanied by examples of real meteorological data analysis. Topics include a complete set of compressible fluid dynamic equations along with a survey on fluid dynamical conservation laws used in meteorology and atmospheric physics; the derivation of two-dimensional atmospheric models; large-scale flows; isentropic analysis of large-scale atmospheric processes; and the principles of kinetic energy sinks and their relation to the energy balance in the atmosphere.

    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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