New Equation For Describing Time Dependence of Moon Orbit Radius

Mikrajuddin Abdullah

arXiv:1802.02712·physics.pop-ph·February 9, 2018

New Equation For Describing Time Dependence of Moon Orbit Radius

Mikrajuddin Abdullah

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TL;DR

This paper presents a new scaling equation for the Moon's orbital radius, which accurately models its time dependence and predicts known quantities, offering a novel approach to lunar orbital dynamics.

Contribution

The paper introduces a new equation describing the Moon's orbital radius as proportional to the two-fifths power of its age, providing a fresh perspective on lunar orbital evolution.

Findings

01

The Moon's orbital radius scales with the two-fifths power of its age.

02

The derived equation accurately predicts established lunar orbital quantities.

03

The model offers a new tool for understanding lunar orbital history.

Abstract

I derived an equation to describe the dependence of Moon orbit radius around the Earth. I obtained the radius changes with time according to a scaling equation, Moon orbit radius is proportional to power 2/5 of the Moon age. Using the equation I have been able to predict accurately some quantities that have been well accepted

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Taxonomy

TopicsPlanetary Science and Exploration · Astro and Planetary Science · Space Satellite Systems and Control