Asked by tania
The work done against a force F(r) in moving an object from r = r1 to r = r2 is integral F(r) dr limits R2 at top and r1 at bottom. The gravitational attraction between two masses m1 and m2 at distance d is given be F=GMM/d2, G = 6.67 x 10-11. Find the work done in lifting a 4000 kg payload from the surface on the moon to a height of 25000m above its surface. The mass of the moon can be taken as 7.3 x 1022 and its radius at 1.7 x 106.
Answers
Answered by
drwls
The work done would be
G m1*m2[1/r1 - 1/r2]
r1 = 1.7*10^6 m
r2 = 1.7*10^6 + 2.5*10^4 = 1.725 *10^6 m
Make sure mass is in kg and use the value of G that they provided. The answer should be in Joules.
Be more careful to show units with your numbers.
G m1*m2[1/r1 - 1/r2]
r1 = 1.7*10^6 m
r2 = 1.7*10^6 + 2.5*10^4 = 1.725 *10^6 m
Make sure mass is in kg and use the value of G that they provided. The answer should be in Joules.
Be more careful to show units with your numbers.
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