Geodesic and Lense-Thirring Precessions Effects on the Near Earth Artificial Satellites

M. Radwan; F. A. Abd El-Salam; S. E. Abd El-Bar

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Journal article

Geodesic and Lense-Thirring Precessions Effects on the Near Earth Artificial Satellites

M. Radwan, F. A. Abd El-Salam and S. E. Abd El-Bar

International journal of applied mathematics & statistics, Vol.32(2), pp.68-76

01/01/2013

Abstract

Mathematics

Mathematics, Applied

Physical Sciences

Science & Technology

The present work deals with the effect of the geodesic and Lense-Thirring precessions in a near Earth artificial satellite orbit. The effects of the geodesic and Lense-Thirring precessions on the orbit evolution are surveyed. The Picard method of successive approximation is described. The canonical equations of motion including forces non-derivable from a potential are presented. The acceleration components coming from the geodesic and Lense-Thirring precessions are first obtained, then, the images of these accelerations are evaluated. The integrations are effected using the method of Picard successive iteration.

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Title: Geodesic and Lense-Thirring Precessions Effects on the Near Earth Artificial Satellites
Creators - without role: M. Radwan - Cairo University
F. A. Abd El-Salam - Cairo University
S. E. Abd El-Bar - Tanta University
Publication Details: International journal of applied mathematics & statistics, Vol.32(2), pp.68-76
Publisher: Centre Environment Social & Economic Research Publ-Ceser
Number of pages: 9
Identifiers: 9929532608331
Academic Unit: Taibah University
Language: English
Resource Type: Journal article