Altitude of Geostationary Orbit

AI Thread Summary
To determine the altitude of a geostationary orbit, the formula T = 2πR / v relates the revolution period (T), distance from the center of mass (R), and velocity (v). Understanding Newton's law of gravitation and circular motion is essential for solving this problem. The gravitational force acting on the satellite provides the necessary centripetal force, allowing for the derivation of expressions for both forces. By equating these forces and solving for R, one can find the required altitude. This approach not only yields the correct result but also enhances comprehension of the underlying physics.
duchuy
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Homework Statement
Deduce at what distance from the center of the Earth are positioned the geostationary satellites which, observed from the terrestrial frame of reference, are motionless in the sky.
Relevant Equations
T = 2piR / v
Hi,
They gave me this formula T = 2piR / v, with T the revolution period of the satellite, R the distance between the center of masses and v the velocity.
They gave me the value of G and the eath's mass and asked to determine the value of R.
I don't even see fromwhere I should start...
Thank you for your help!
 
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Have you studied what Mr. Newton said about gravitation?
 
Gordianus said:
Have you studied what Mr. Newton said about gravitation?
Probably I have, but I'm not quite sure how I would use those formulas for an object in geostationary orbit... and I'm taking physics as a minor so I don't really remember much
 
O.K. Can you make a search about Newton's gravitation law and circular movement?
 
And, do you know what a 'geostationary' orbit is.
 
If a satellite appears to be stationary above the earth, what must its period T be? Can you also write an expression for v in terms of T and R? Then you'd be left with an expression with R as the only unknown.

BUT

Usually to tackle a Q like this, rather than using that equation you've quoted, I'd start from the fact that the gravitational force on the satellite is what provides the centripetal force. So if you can write an expression for each of these (I usually prefer the mrω² version for centripetal force), and equate them, you can do it from there - though you still need to know T of course.
In the end, it will get you to the same place, but doing it this way helps you to understand and therefore remember how this works.
 
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