Suppose there's a hole through the centre of the earth. An object is dropped through that hole from a height of 100 km from the surface. How long will it take to reach max height on other side of that hole? 1 Gravitational Constant, G = 6.673 × 10-1 Newtons kg-2 m2 Mass of the Earth, Me Radius of the Earth, R 6 x 1024 kg 6400 km Note: Your answer should be in second. Round the answer to one decimal place.

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Suppose there's a hole through the centre of the earth. An object is dropped through that hole from a height of 100100 kmkm from the surface. How long will it take to reach max height on other side of that hole?

Suppose there's a hole through the centre of
the earth. An object is dropped through that
hole from a height of 100 km from the
surface. How long will it take to reach max
height on other side of that hole?
Gravitational Constant, G = 6.673 x 10-11
Newtons kg2 m2
Mass of the Earth, Me = 6 x 1024 kg
Radius of the Earth, R
6400 km
Note: Your answer should be in second. Round
the answer to one decimal place.
Transcribed Image Text:Suppose there's a hole through the centre of the earth. An object is dropped through that hole from a height of 100 km from the surface. How long will it take to reach max height on other side of that hole? Gravitational Constant, G = 6.673 x 10-11 Newtons kg2 m2 Mass of the Earth, Me = 6 x 1024 kg Radius of the Earth, R 6400 km Note: Your answer should be in second. Round the answer to one decimal place.
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