Perturbations of non-resonant satellite orbits due to a rotating earth
Abstract
The dominant perturbations of the motion of a satellite near the earth are due to atmospheric drag and the non-symmetrical gravitational field. Atmospheric drag perturbation continually pulls the satellite in and out of the different long period resonant frequencies. The result is that the resonances never become apparent and may be neglected. The tesseral harmonics have no true secular perturbation but the periodicities in the mean motion induce a secular perturbation in the mean anomaly. This secular perturbation may be determined by simply using the average mean motion instead of the osculating mean motion. The Von Ziepel method is used to determine tesseral perturbations. The solution is found first in the singular DS phi elements and then rewritten in the PS phi elements to remove singularities. The notation used in the development is described in the appendix.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- June 1978
- Bibcode:
- 1978STIN...7919068M
- Keywords:
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- Earth Motion;
- Orbital Mechanics;
- Satellite Perturbation;
- Tesseral Harmonics;
- Von Zeipel Method;
- Eccentricity;
- Gravitational Fields;
- Resonant Frequencies;
- Satellite Drag;
- Launch Vehicles and Space Vehicles