Representation of three-dimensional mass distribution of the Earth's interior by biorthogonal series and its use for studying internal structure of the planetOAEI

This paper utilizes the mathematical concept of approximation within an ellipsoid from a single view-point to present the spatial mass distribution function of the Earth's interior and its internal potential.The primary focus lies in constructing the volume distribution of masses in the planet's interior,with the expansion coefficients being linear combinations of the Stokes constants.Several possible approaches are suggested for determining accurately these coefficients employing three-dimensional(biorthogonal)polynomials.By expressing the mass distribution function of the Earth's interior and its internal potential as a series,an algorithm is introduced for the calculation of gravitational energy.It allows us to estimate fluctuations in gravitational energy.The implementation of this algorithm offers the means of estab-lishing the extent to which the Earth deviates from a state of hydrostatic equilibrium as a celestial body.Due to the aforementioned method,calculations have been conducted to validate its effectiveness and reliability.This example is given as an illustration of a given method for studying the internal structure of planets.