Suppose a certain planet had two moons, one of which was twice as far from the planet as the other. Which moon would complete one revolution of the planet first?

1 Answer
Phillip E.
Nov 29, 2015

The innermost moon.

Explanation:

Assuming that the moons orbit the planet in elliptical orbits, then Kepler's third law gives the relationship between the orbital period T and the semi major axis A as #T^2/A^3=#constant.

If the orbital period and semi major axis for the inner moon are #T_1# and #A_1# and for the outer moon are #T_2# and #A_2#. Then #T_1^2/A_1^3=T_2^2/A_2^3#. The outer moon is twice the distance which means that #A_2=2A_1#. Substituting gives #T_1^2/A_1^3=T_2^2/(8A_1^3#. Multiply by #8A_1^3# gives #T_2^2=8T_1^2#. Taking the square root gives #T_2=2sqrt(2)T_1#.

This means that a moon which orbits twice the distance away from the planet takes approximately 2.828 times longer to complete an orbit.

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