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The Moon orbits Earth in an average of p = 27.3 days at an average distance of a =384,000 kilometers. Using Newton’s version of Kepler’s third law determine the mass of Earth. You may neglect the mass
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The Moon orbits Earth in an average of p = 27.3 days at an average distance of a =384,000 kilometers. Using Newton’s version of Kepler’s third law determine the mass of Earth. You may neglect the mass of the Moon in comparison to the mass of Earth.

User Kayann
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1 Answer

2 votes

Answer:

The mass of the earth,
M=6.023* 10^(24)\ kg

Step-by-step explanation:

It is given that,

Time taken by the moon to orbit the earth,
T=27.3\ days=2358720\ m

Distance between moon and the earth,
r=384000\ km=384* 10^6\ m

We need to find the mass of the Earth using Kepler's third law of motion as :


T^2=(4\pi^2)/(GM)r^3


M=(4\pi^2r^3)/(T^2G)


M=(4\pi^2* (384* 10^6)^3)/((2358720)^2* 6.67* 10^(-11))


M=6.023* 10^(24)\ kg

So, the mass of the earth is
6.023* 10^(24)\ kg. Hence, this is the required solution.

User Huangbiubiu
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5.7k points
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