Keywords: Separation of variables
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Displaying 1-4 of 4 results.
Advanced Partial Differential Equations with Applications, Spring 2004
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| Type: | Course Related Materials |
Abstract: A comprehensive treatment of the theory of partial differential equations (pde) from an applied mathematics perspective. Equilibrium, propagation, diffusion, and other phenomena. Initial and boundary value problems. Transform methods, eigenvalue and eigenfunction expansions, Green's functions. Theory ... More »
Linear Partial Differential Equations, Fall 2004
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| Type: | Course Related Materials |
Abstract: The classical partial differential equations of applied mathematics: diffusion, Laplace/Poisson, and wave equations. Methods of solution, such as separation of variables, Fourier series and transforms, eigenvalue problems. Green's function methods are emphasized. 18.04 or 18.112 are useful, as well as ... More »
Linear Partial Differential Equations, Fall 2005
| Rating: | |
| Type: | Course Related Materials |
Abstract: The classical partial differential equations of applied mathematics: diffusion, Laplace/Poisson, and wave equations. Methods of solution, such as separation of variables, Fourier series and transforms, eigenvalue problems. Green's function methods are emphasized. 18.04 or 18.112 are useful, as well as ... More »
Linear Partial Differential Equations, Fall 2006
| Rating: | |
| Type: | Course Related Materials |
Abstract: The classical partial differential equations of applied mathematics: diffusion, Laplace/Poisson, and wave equations. Methods of solution, such as separation of variables, Fourier series and transforms, eigenvalue problems. Green's function methods are emphasized. 18.04 or 18.112 are useful, as well as ... More »
