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Laplacian operator in spherical polar coordinates

Equation (6.12) cannot be solved analytically when expressed in the cartesian coordinates x, y, z, but can be solved when expressed in spherical polar coordinates r, 6, cp, by means of the transformation equations (5.29). The laplacian operator in spherical polar coordinates is given by equation (A.61) and may be obtained by substituting equations (5.30) into (6.9b) to yield... [Pg.160]

The Laplacian operator in spherical polar coordinates becomes... [Pg.347]

The relative Schrodinger equation cannot be solved in Cartesian coordinates. We transform to spherical polar coordinates in order to have an expression for the potential energy that contains only one coordinate. Spherical polar coordinates are depicted in Figure 17.3. The expression for the Laplacian operator in spherical polar coordinates is found in Eq. (B-47) of Appendix B. The relative Schrodinger equation is now... [Pg.729]

See other pages where Laplacian operator in spherical polar coordinates is mentioned: [Pg.201]    [Pg.160]   
See also in sourсe #XX -- [ Pg.347 , Pg.348 , Pg.379 ]



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Laplacian in spherical coordinates

Laplacian operator in spherical

Laplacian operator in spherical coordinates

Laplacian operator, spherical coordinates

Laplacian spherical coordinates

Laplacians

Operator Laplacian

Operators) coordinate

Polar coordinates

Polar coordinates, spherical

Spherical Laplacian

Spherical coordinates

Spherical polar

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