SOLUTION: Find the mass of Earth by equating the weight of an object near the surface of Earth (Hint: Use Newtons' Second Law of Motion) to the gravitational force found from Newton's Law of

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Question 1119801: Find the mass of Earth by equating the weight of an object near the surface of Earth (Hint: Use Newtons' Second Law of Motion) to the gravitational force found from Newton's Law of Gravitation. (Re = 6.37 x 106 m is the radius of Earth)
Answer by ikleyn(52887) About Me  (Show Source):
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For the given problem, Newton's Law of Gravitation says


G%2A%28%28M%2Am%29%2FR%5E2%29 = W = m*g    (1)


where M is the Earth mass (in kilograms), m is the mass of the body at the Earth surface, 

W = mg is the weight of the body, g is the free fall acceleration g = 9.81 m/s^2,

R is the Earth radius = 6.37*10^6 m,

G is universal gravitational constant = 6.67408 × 10-11 m3/(kg*s^2).


In (1), cancel the factor "m" in both sides and express M


M = %28g%2AR%5E2%29%2FG.


Substitute the given data and calculate.  You will get

M = 5.97*10^24 kg  for the Earth mass.


Wikipedia ( https://en.wikipedia.org/wiki/Earth_mass ) gives the same value.