The empirical Melchior laws and parametric excitation of the Chandler wobble |
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| Authors: | G S Kurbasova L V Rykhlova G N Shlikar’ |
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| Institution: | (1) Crimean Astrophysical Observatory, Nauchnyi, Crimea, Ukraine;(2) Institute of Astronomy, Pyatnitskaya 48, Moscow, 109017, Russia |
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| Abstract: | Models of the motion of the terrestrial reference frame with respect to an inertial frame can describe the motions of the Earth-Moon system, which are traditionally separated into precession, nutation, the polar motion, and rotation about the Earth’s axis. Existing theoretical models do not describe variations in the Earth-orientation parameters with the required accuracy, so that the current polar coordinates and duration of the day must be determined from observations. To improve theoretical models for the time dependence of the coordinates of the Earth’s pole, we examine the possible excitation of the Chandler wobble due to internal properties of the Earth-Moon system. A differential equation describing the parametric resonance in the Earth-Moon system is obtained for the first region of the parametric excitation. The solution of this equation analytically describes the finite amplitudes of the nonlinear conservative system. The theoretical results are compared with the empirical laws of Melchior deduced from observational data on the coordinates of the Earth’s pole. |
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