Moon mass approximation in algebraic form analogous to activity sphere formula

Details Moon mass approximation in algebraic form analogous to activity sphere formula Moon mass approximation in algebraic form analogous to activity sphere formula

Dec 1966

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1966papge..63..105m&link_type=abstract

Pure and Applied Geophysics PAGEOPH, Volume 63, Issue 1, pp.105-108

Physics

Geophysics

Scientific paper

The concept of comet orbit activity sphere as introduced by D'Alembert and developed by Laplace is modified and applied to the Sun-Earth-Moon system, leading to a new approximate relationship between astronomical constants usually regarded as independent quantities. When Sun-Earth mass ratio, the astronomic unit, and Earth-Moon separation distance are taken as known, an elementary algebraic formula gives the Earth-Moon mass ratio in terms of these. Despite the inherently imprecise character of this type of calculation, surprisingly close numerical agreement with independently determined values is obtained. The great simplicity and directness of the result contrast with ardous orthodox inference procedures for the lunar mass, suggesting that newer methods of general dynamic analysis are required in the study of asymptotic states of the three-body problem.

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