About: Eigenvalues and eigenvectors of the second derivative

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Explicit formulas for eigenvalues and eigenvectors of the second derivative with different boundary conditions are provided both for the continuous and discrete cases. In the discrete case, the standard central difference approximation of the second derivative is used on a uniform grid. These formulas are used to derive the expressions for eigenfunctions of Laplacian in case of separation of variables, as well as to find eigenvalues and eigenvectors of multidimensional discrete Laplacian on a regular grid, which is presented as a Kronecker sum of discrete Laplacians in one-dimension.

Property	Value
dbo:abstract	Explicit formulas for eigenvalues and eigenvectors of the second derivative with different boundary conditions are provided both for the continuous and discrete cases. In the discrete case, the standard central difference approximation of the second derivative is used on a uniform grid. These formulas are used to derive the expressions for eigenfunctions of Laplacian in case of separation of variables, as well as to find eigenvalues and eigenvectors of multidimensional discrete Laplacian on a regular grid, which is presented as a Kronecker sum of discrete Laplacians in one-dimension. (en)
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dbo:wikiPageWikiLink	dbc:Finite_differences dbc:Operator_theory dbr:Eigenvalue dbr:Eigenvector dbr:Kronecker_sum_of_discrete_Laplacians dbc:Matrix_theory dbr:Regular_grid dbc:Numerical_differential_equations dbr:Chebyshev_polynomials dbr:Laplacian dbr:Discrete_Laplace_operator dbr:Second_derivative dbr:Separation_of_variables dbr:Central_difference dbr:Eigenfunctions
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rdfs:comment	Explicit formulas for eigenvalues and eigenvectors of the second derivative with different boundary conditions are provided both for the continuous and discrete cases. In the discrete case, the standard central difference approximation of the second derivative is used on a uniform grid. These formulas are used to derive the expressions for eigenfunctions of Laplacian in case of separation of variables, as well as to find eigenvalues and eigenvectors of multidimensional discrete Laplacian on a regular grid, which is presented as a Kronecker sum of discrete Laplacians in one-dimension. (en)
rdfs:label	Eigenvalues and eigenvectors of the second derivative (en)
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