Astronomy and Astrophysics – Astrophysics
Scientific paper
2001-06-14
J.Math.Phys. 43 (2002) 3678
Astronomy and Astrophysics
Astrophysics
Plain TeX, 27 Pages, 3 Figures, Submitted for Publication
Scientific paper
10.1063/1.1482148
Based on the value of the orbital eccentricity of a particle and also its proximity to the exact resonant orbit in a three-body system, the Pendulum Approximation (Dermott & Murray 1983) or the Second Fundamental Model of Resonance (Andoyer 1903; Henrard & Lemaitre 1983) are commonly used to study the motion of that particle near its resonance state. In this paper, we present the method of partial averaging as an analytical approach to study the dynamical evolution of a body near a resonance. To focus attention on the capabilities of this technique, a restricted, circular and planar three-body system is considered and the dynamics of its outer planet while captured in a resonance with the inner body is studied. It is shown that the first-order partially averaged system resembles a mathematical pendulum whose librational motion can be viewed as a geometrical interpretation of the resonance capture phenomenon. The driving force of this pendulum corresponds to the gravitational attraction of the inner body and its contribution, at different resonant states, is shown to be proportional to e^s, where s is the order of the resonance and e is the orbital eccentricity of the outer planet. As examples of such systems, the cases of (1:1), (1:2) and (1:3) resonances are discussed and the results are compared with known planetary systems such as the Sun-Jupiter-Trojan asteroids.
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