Satellites feel the gravitational pull of the earth. They remain in orbit becaus

Question

Satellites feel the gravitational pull of the earth. They remain in orbit because of their velocity, which acts to counteract gravity. (The satellite wants to fly out in a straight line, but gravity forces it to curve towards the earth.) Consider a communications satellite that needs to be 25000 km above the Earth's surface.

(a) Assuming the satellite travels in a perfect circle, what is the radius of the satellite's travel. (The radius of the earth is 6375 km.)


(b) At the satellite's altitude, the acceleration of gravity is 0.405 m/s2. What is the magnitude of the tangential velocity that the satellite must have to remain in orbit?


(c) How much time will the satellite take to orbit the earth?

Explanation / Answer

A) the radius = 25000+6375 km= 31375 km B) for this part m*g = m*v^2/r => v= (2*g*r)^(1/2) = (2*0.405*31375000)= 5041.20521 m/s C) time taken = perimeter of the circle of revolution around earth/speed = 2*Pi*r/v = 2*22*31375000/(7*5041.20521)= 39120.4638 seconds = 10.87 hours

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