Regularities of Similarity of Periodical Movements of Satellite on the Elliptic Orbit in Transition to Chaos

    1996, Volume 1, Number 1, pp.  54-71

    Author(s): Gulyaev V. I., Zavrazhina T. V., Koshkin V. L.

    There has been studied problem of self-similarity of periodical trajectories in Hamilton's systems in the infinite sequence of bifurcations of duplication of the period using as an example the problem of oscillations of satellite on the elliptic orbit relative to the proper center of mass. The universal scale regularities of transformation of periodical movements of the system within the limits of the chaotic movement have been discovered using methods of continuation of solution according to the parameter, the theory of stability by Ljapunov and Floquet, the theory of branching and the methods of scaling, as well. There has been suggested a numeric algorithm of building of the scaling functions of the trajectories (STF) in Hamilton's systems and determination on their basis of universal scale factors of transition to chaos. It has been shown that the STF of Hamilton's systems have a range of qualitative and quantitative dissimilarities from the known dissipative analog.
    Citation: Gulyaev V. I., Zavrazhina T. V., Koshkin V. L., Regularities of Similarity of Periodical Movements of Satellite on the Elliptic Orbit in Transition to Chaos, Regular and Chaotic Dynamics, 1996, Volume 1, Number 1, pp. 54-71


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