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wilson_chem90
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A satellite is designed to orbit Earth at an altitude above its surface that will place it in a gravitational field with a strength of 4.5 N/kg.
a) Calculate the distance above the surface of Earth at which the satellite must orbit.
b) Assusming the orbit is circular, calculate the acceleration of the satellite and its direction.
c) At what speed must the satellite travel in order to maintain this orbit.
(I already found the answer for a) i got approximately 3034716.6 m above Earth)
For c) I know I can use the equation v = {GmE/r} ( {} = square root)
but i am not sure how to find the acceleration for b). the only thing i can think of is using
ac = v^2/r.
Any suggestions?
Thanks
a) Calculate the distance above the surface of Earth at which the satellite must orbit.
b) Assusming the orbit is circular, calculate the acceleration of the satellite and its direction.
c) At what speed must the satellite travel in order to maintain this orbit.
(I already found the answer for a) i got approximately 3034716.6 m above Earth)
For c) I know I can use the equation v = {GmE/r} ( {} = square root)
but i am not sure how to find the acceleration for b). the only thing i can think of is using
ac = v^2/r.
Any suggestions?
Thanks