| In the first section of this article, we introduce the gravitational spectral shifts of static gravitational field, and spectral shifts of gravitational fields with mass, or electric charges or cosmological constant. In the second section of the paper, we investigate the gravitational spectral shifts of the celestial body with electric charges, magnetic charges, magnetic moment and mass quadrupole moment. We find: 1) The spectral shift of magnetic moment is blue shift which changes with angular θ: when θ = 0,#, the blue shift is minimum; and when θ = #/2, it reaches maximum. 2) The spectral shift of the interaction of the charges and mass quadrupole moment depends on the angular θ: the blue shift is maximum for θ = 0,#, the red sift is maximum for θ = #/2, and the spectral shift is zero for θ = arccos(1/31/2). 3) The spectral shift of the interaction of charges and magnetic moment is related to the charges and angular θ: when θ = 0, the blue shift is maximum, when θ= π, the red shift is maximum, and 0 = π/2, the spectral shift is zero. |
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