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A Numerical Method of Integration by Means of Taylor-Steffensen Series and Its Possible Use in the Study of the Motions of Comets and Minor Planets

Published online by Cambridge University Press:  14 August 2015

V. F. Myachin  and
O. A. Sizova
V. F. Myachin
Affiliation:
Institute for Theoretical Astronomy, Leningrad, U.S.S.R.
O. A. Sizova
Affiliation:
Institute for Theoretical Astronomy, Leningrad, U.S.S.R.

Abstract

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The Taylor formula is used directly in a method of numerical integration of the n-body problem of celestial mechanics; the derivatives in the expansion of the coordinates are calculated successively at each integration step according to the generalized Steffensen rule. The proposed method is the most precise of all numerical methods based on the predetermined part of the Taylor series. The method is used with a variable number of derivatives at each integration step and also with a variable step. The cumulative error in the coordinates increases more slowly in our method than in any other. We can apply the method to the study of the motion of a comet or minor planet, taking into account the perturbations by eight major planets; the method allows for the simultaneous integration of a great number of objects of zero mass.

Type
Part II/General Methods of Orbit Theory
Information
Symposium - International Astronomical Union , Volume 45: The Motion, Evolution of Orbits and Origin of Comets , 1972 , pp. 83 - 85
Copyright
Copyright © Reidel 1972 

References

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