Water Waves: The Mathematical Theory with Applications
Offers an integrated account of the mathematical hypothesis of wave motion in liquids with a free surface, subjected to gravitational and other forces. Uses both potential and linear wave equation theories, together with applications such as the Laplace and Fourier transform methods, conformal mapping and complex variable techniques in general or integral equations, methods employing a Green's function. Coverage includes fundamental hydrodynamics, waves on sloping beaches, problems involving waves in shallow water, the motion of ships and much more.
1101197599
Water Waves: The Mathematical Theory with Applications
Offers an integrated account of the mathematical hypothesis of wave motion in liquids with a free surface, subjected to gravitational and other forces. Uses both potential and linear wave equation theories, together with applications such as the Laplace and Fourier transform methods, conformal mapping and complex variable techniques in general or integral equations, methods employing a Green's function. Coverage includes fundamental hydrodynamics, waves on sloping beaches, problems involving waves in shallow water, the motion of ships and much more.
204.95 In Stock
Water Waves: The Mathematical Theory with Applications

Water Waves: The Mathematical Theory with Applications

by J. J. Stoker
Water Waves: The Mathematical Theory with Applications

Water Waves: The Mathematical Theory with Applications

by J. J. Stoker

Overview

Offers an integrated account of the mathematical hypothesis of wave motion in liquids with a free surface, subjected to gravitational and other forces. Uses both potential and linear wave equation theories, together with applications such as the Laplace and Fourier transform methods, conformal mapping and complex variable techniques in general or integral equations, methods employing a Green's function. Coverage includes fundamental hydrodynamics, waves on sloping beaches, problems involving waves in shallow water, the motion of ships and much more.

Product Details

ISBN-13: 9780471570349
Publisher: Wiley
Publication date: 04/16/1992
Series: Wiley Classics Library , #36
Edition description: REPRINT
Pages: 608
Product dimensions: 6.10(w) x 8.86(h) x 1.18(d)

About the Author

James J Stoker was an American applied mathematician and engineer. He was director of the Courant Institute of Mathematical Sciences and is considered one of the founders of the institute, Courant and Friedrichs being the others. Stoker is known for his work in differential geometry and theory of water waves.

Table of Contents

Basic Hydrodynamics.

The Two Basic Approximate Theories.

WAVES SIMPLE HARMONIC IN THE TIME.

Simple Harmonic Oscillations in Water of Constant Depth.

Waves Maintained by Simple Harmonic Surface Pressure in Water ofUniform Depth: Forced Oscillations.

Waves on Sloping Beaches and Past Obstacles.

MOTIONS STARTING FROM REST: TRANSIENTS.

Unsteady Motions.

WAVES ON A RUNNING STREAM: SHIP WAVES.

Two-Dimensional Waves on a Running Stream in Water of UniformDepth.

Waves Caused by a Moving Pressure Point: Kelvin's Theory of theWave Pattern Created by a Moving Ship.

The Motion of a Ship, as a Floating Rigid Body, in a Seaway.

Long Waves in Shallow Water.

Mathematical Hydraulics.

Problems in Which Free Surface Conditions Are Satisfied Exactly:The Breaking of a Dam;
Levi-Civita's Theory.

Bibliography.

Indexes.
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