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It is possible to calculate precisely the theoretical eigen-frequencies of any Earth model which is non-rotating, spherically symmetric, and which has an isotropic static stress field and an isotropic dynamic stress-strain relation. In this paper Rayleigh’s principle is used to provide a formalism which allows the approximate computation of the normal mode eigen-frequencies of any Earth model which is slowly rotating and slightly aspherical and anisotropic. This formalism is used to compute, correct to second order, the effects of the Earth’s angular rotation, and correct to first order, the effects of the Earth’s ellipticity of figure on the normal mode eigenfrequencies. It is found that for an arbitrary poloidal or toroidal niultiplet, the central (m = 0) member of the multiplet is shifted slightly in frequency and that the other members of the multiplet are split apart asymmetrically by the effects of the Earth‘s rotation and ellipticity. The results may be used to make a preliminary correction for rotation and ellipticity to the Earth’s raw normal mode data. 1.
F. A. Dahlen (Fri,) studied this question.