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Journal of Applied
Mathematics and Mechanics
Russian Academy of Sciences

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in January 1936
(Translated from 1958)
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Issues > Archive of Issues > 2012-1 > pp.36-47

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A.P. Markeyev, "Non-linear oscillations of a satellite at 1:1:1 resonance," J. Appl. Math. Mech. 76 (1), 36-47 (2012)
Year	2012	Volume	76	Issue	1	Pages	36-47
Title	Non-linear oscillations of a satellite at 1:1:1 resonance
Author(s)	A.P. Markeyev (Moscow, Russia, markeev@ipmnet.ru)
Abstract	The motion of a satellite about its centre of mass in a central Newtonian gravitational field is investigated. The satellite is considered to be a dynamically symmetrical rigid body. It is assumed that the ratio of the polar and equatorial principal central moments of inertia of the satellite is 4/3, or close to this. The orbit of the centre of mass is elliptic, and the orbit eccentricity is assumed to be small. In the limit case, when the orbit of the centre of mass is circular, a steady motion exists (corresponding to relative equilibrium of the satellite in the orbital system of coordinates) in which the axis of dynamic symmetry is directed along the velocity vector of the centre of mass of the satellite; here, the frequencies of the small linear oscillations of the axis of symmetry are equal or close to one another. But in an elliptic orbit of small eccentricity, multiple 1:1:1 resonance occurs in this case, as the oscillation frequencies mentioned are equal or close to the frequency of motion of the centre of mass of the satellite in orbit. The non-linear problem of the existence, bifurcations and stability of periodic motions of the satellite with a period equal to the rotation period of its centre of mass in orbit is investigated.
Received	31 March 2011
Link to Fulltext	http://www.sciencedirect.com/science/article/pii/S0021892812000305
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