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Kepler’s Goat Herd: An exact solution to Kepler’s equation for elliptical orbits

Oliver H. E. Philcox, Jeremy Goodman, Zachary Slepian

2021Monthly Notices of the Royal Astronomical Society17 citationsDOIOpen Access PDF

Abstract

ABSTRACT A fundamental relation in celestial mechanics is Kepler’s equation, linking an orbit’s mean anomaly to its eccentric anomaly and eccentricity. Being transcendental, the equation cannot be directly solved for eccentric anomaly by conventional treatments; much work has been devoted to approximate methods. Here, we give an explicit integral solution, utilizing methods recently applied to the ‘geometric goat problem’ and to the dynamics of spherical collapse. The solution is given as a ratio of contour integrals; these can be efficiently computed via numerical integration for arbitrary eccentricities. The method is found to be highly accurate in practice, with our C++ implementation outperforming conventional root-finding and series approaches by a factor greater than two.

Topics & Concepts

Kepler problemPhysicsEccentricity (behavior)Celestial mechanicsNumerical integrationAnomaly (physics)Transcendental equationKeplerOrbit (dynamics)Classical mechanicsSeries (stratigraphy)Mathematical analysisDifferential equationMathematicsStarsAstrophysicsQuantum mechanicsAerospace engineeringEngineeringBiologyLawPaleontologyPolitical scienceAstro and Planetary ScienceStellar, planetary, and galactic studiesSpacecraft Dynamics and Control
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