Science, asked by ya5568656, 2 months ago

F = G ·

mM

R2

(1)
An astronaut working on the Moon tries to determine the gravitational constant G by throwing

a Moon rock of mass m with a velocity of v vertically into the sky. The astronaut knows that the

Moon has a density ρ of 3340 kg/m3 and a radius R of 1740 km.

(a) Show with (1) that the potential energy of the rock at height h above the surface is given by:

E = −

4πG

3

mρ ·

R3

R + h

(2)

(b) Next, show that the gravitational constant can be determined by:

G =

3



v

2

ρR2



1 −

R

R + h

−1

(3)

(c) What is the resulting G if the rock is thrown with 30 km/h and reaches 21.5 m?​

Answers

Answered by mintoogupta98913
1

Answer:

dynamismcontinuously

Explanation:

comfortable

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