Separation of Variables for Partial Differential Equations
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€235.60
A01=George Cain
A01=Gunter H. Meyer
advanced mathematics textbook
approach
approximate
Approximate Solution
Author_George Cain
Author_Gunter H. Meyer
Backward Heat Equation
Boundary Data
boundary value problems
Category=PBKS
Cos 3?x
Cos 3πx
dirichlet
Dirichlet Problem
Duhamel's Principle
Duhamel’s Principle
eigenfunction
Eigenfunction Approach
Eigenfunction Expansion
Eigenfunction Expansion Method
eigenfunction expansion techniques for scientists
eigenvalue
Eigenvalue Problem
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
expansions
Fourier Cosine Series
Fourier Series
Fourier Sine Series
functional analysis
General Solution Process
Gibbs Phenomenon
Heat Equation
Homogeneous Boundary Condition
Laplace equation
liouville
mathematical physics
Neumann Problem
Normed Linear Space
partial differential equations
Poisson's Equation
Poisson’s Equation
problem
Regular Sturm Liouville Problem
Sin N?x
Sin Nπx
Singular Sturm Liouville Problem
solution
sturm
Sturm Liouville Problem
Wave Equation
Product details
- ISBN 9781584884200
- Weight: 566g
- Dimensions: 156 x 234mm
- Publication Date: 21 Nov 2005
- Publisher: Taylor & Francis Inc
- Publication City/Country: US
- Product Form: Hardback
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Separation of Variables for Partial Differential Equations: An Eigenfunction Approach includes many realistic applications beyond the usual model problems. The book concentrates on the method of separation of variables for partial differential equations, which remains an integral part of the training in applied mathematics. Beyond the usual model problems, the presentation includes a number of realistic applications that illustrate the power and usefulness of the ideas behind these techniques. This complete, self-contained book includes numerous exercises and error estimates, as well as a rigorous approximation and computational tool.
Cain, George; Meyer, Gunter H.
