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Main Author: Strunz, Pavel
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.17063
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author Strunz, Pavel
author_facet Strunz, Pavel
contents Orthogonal coordinate systems enable expressing the boundary conditions of differential equations in accord with the physical boundaries of the problem. It can significantly simplify calculations. The orthogonal similar oblate spheroidal (SOS) coordinate system can be particularly useful for a physical processes description inside or in the vicinity of the bodies or particles with the geometry of an oblate spheroid. The interior solution of the Laplace equation in the SOS coordinates was recently found; however, the exterior solution was missing. The exterior solution of the azimuthally symmetric Laplace equation in the SOS coordinates is derived. In the steps leading to this solution, important formulas of the SOS algebra are found. Various forms of the Laplace operator in the SOS coordinates in azimuthally symmetric case are shown. General transformation between two different SOS coordinate systems is derived. It is determined that the SOS harmonics are physically the same as the solid harmonics. Further, a formula expressing any generalized Legendre polynomial as a finite sum of monomials is found. The reported relations have potential application in geophysics, astrophysics, electrostatics and solid state physics (e.g. ferroic inclusions).
format Preprint
id arxiv_https___arxiv_org_abs_2405_17063
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle On Laplace equation solution in orthogonal similar oblate spheroidal coordinates
Strunz, Pavel
Classical Physics
Mathematical Physics
35A08 (Primary) 31B05, 35J05, 35A25 (Secondary)
Orthogonal coordinate systems enable expressing the boundary conditions of differential equations in accord with the physical boundaries of the problem. It can significantly simplify calculations. The orthogonal similar oblate spheroidal (SOS) coordinate system can be particularly useful for a physical processes description inside or in the vicinity of the bodies or particles with the geometry of an oblate spheroid. The interior solution of the Laplace equation in the SOS coordinates was recently found; however, the exterior solution was missing. The exterior solution of the azimuthally symmetric Laplace equation in the SOS coordinates is derived. In the steps leading to this solution, important formulas of the SOS algebra are found. Various forms of the Laplace operator in the SOS coordinates in azimuthally symmetric case are shown. General transformation between two different SOS coordinate systems is derived. It is determined that the SOS harmonics are physically the same as the solid harmonics. Further, a formula expressing any generalized Legendre polynomial as a finite sum of monomials is found. The reported relations have potential application in geophysics, astrophysics, electrostatics and solid state physics (e.g. ferroic inclusions).
title On Laplace equation solution in orthogonal similar oblate spheroidal coordinates
topic Classical Physics
Mathematical Physics
35A08 (Primary) 31B05, 35J05, 35A25 (Secondary)
url https://arxiv.org/abs/2405.17063