Newton's Law of Gravitation states that two bodies with masses M and N attract each other with a force MN p2 where r is the distance between the bodies and G is the gravitational constant. Use Newton's Law of Gravitation to compute the work (in J) required to launch a 1000-kg satellite vertically to an orbit 1000 km high. You may assume that Earth's mass is 5.98 x 1024 kg and is concentrated at its center. Take the radius of the Earth to be 6.37 × 10° m and G = 6.67 × 10-¹¹ N - m²/kg². Work done = F = G
Newton's Law of Gravitation states that two bodies with masses M and N attract each other with a force MN p2 where r is the distance between the bodies and G is the gravitational constant. Use Newton's Law of Gravitation to compute the work (in J) required to launch a 1000-kg satellite vertically to an orbit 1000 km high. You may assume that Earth's mass is 5.98 x 1024 kg and is concentrated at its center. Take the radius of the Earth to be 6.37 × 10° m and G = 6.67 × 10-¹¹ N - m²/kg². Work done = F = G
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Transcribed Image Text:Newton's Law of Gravitation states that two bodies with masses M and N attract each other with a force
MN
p2
F = G
wherer is the distance between the bodies and G is the gravitational constant.
Use Newton's Law of Gravitation to compute the work (in J) required to launch a 1000-kg satellite vertically to an orbit 1000 km high. You
may assume that Earth's mass is 5.98 x 1024 kg and is concentrated at its center. Take the radius of the Earth to be 6.37 × 10⁰ m
and G = 6.67 × 10-¹¹ N. m²/kg².
Work done =
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