How Is the Moon's Mass Calculated Using Satellite Orbit Data?

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To calculate the moon's mass using satellite orbit data, the total radius of the orbiting satellite is determined by adding the moon's radius (1737.4 km) to its altitude (250 km), resulting in 1987.4 km. The satellite's orbital period is given as 2.000 hours and 14 minutes. The discussion emphasizes using the centripetal force and gravitational force equations, specifically F = G(Mm/r²), where G is the gravitational constant, M is the mass of the moon, and r is the orbital radius. Participants clarify the meaning of "μ" as the product of G and the mass of the body being orbited. Understanding these concepts is crucial for solving the problem effectively.
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Homework Statement


A satellite is in circular orbit around the moon 250.0km above the moon's surface, and takes 2.000 hours and 14.00 minutes for one revolution of the moon. Calculate the moons mass.

The radius of the moon is 1737.4km, so if you add the extra 250.0km the satellite is above, the total radius is 1987.4km

please help
 
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what sort of attempt have you made? You should have some formulas about centripetal force and the force due to gravity that you could use.
 
Would you be able to use the equation in this picture? instead of solving for the time, which we could figure out easy enough, we solve for the mass, but instead of the sun, we change all the values to the ones for the moon, if you get my meaning
 

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yes, that would work
 
What does "μ" mean?
 
it says there in the image

it's the gravitational constant G multiplied by the mass of what's being orbited. In the image, the sun is being orbited; in your problem, the moon is being orbited.
 
Whats the gravitational constant?
 

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