Calculating Kinetic Energy for a Satellite Launch

AI Thread Summary
The discussion revolves around calculating the kinetic energy of a satellite when it is far from a planet after being launched. The initial approach involved using the escape velocity formula to determine the minimum kinetic energy required for the satellite to leave the planet's gravitational influence. It was clarified that while escape velocity is important, the fundamental relationship between kinetic energy (KE) and potential energy (PE) should be applied. The correct method involves recognizing that at an infinite distance, both PE and KE should equal zero, allowing for the calculation of the satellite's final kinetic energy by subtracting the energy associated with escape velocity from the initial kinetic energy. The importance of presenting a clear and elegant solution in exams was also emphasized.
alicia.kostka
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Homework Statement



So I just finished a physics test and I'm not sure if I approached a question correctly... Our professor gave us the mass of a satellite, and the mass of an imaginary planet and its radius. Then he gave us the amount of initial kinetic energy given to the satellite when launched. His question was "how much kinetic energy will the satellite have when its very very very far away?" (Assuming no other planet or star is exerting a gravitational force on it)

The Attempt at a Solution



The approach I took was as follows... I used the equation for escape velocity v=\sqrt{}2GM/r ...then using the necessary escape velocity, I used 1/2mv^2 I found the minimum initial kinetic energy for the satellite to escape the planet's orbit. Finally, I subtracted this minimum energy from the actual initial energy given to the satellite to get the final answer.

Does this sound right?
 
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welcome to pf!

hi alicia! welcome to pf! :smile:

(have a square-root: √ and try using the X2 tag just above the Reply box :wink:)

yes, that's correct :smile:

i think you're confused because you're using escape velocity instead of going back to the basics of KE and PE …

escape velocity is the speed (!) ve needed to reach r = ∞ at speed zero

so, since PE is defined as zero, KE + PE = KEr + PEr, ie 0 + 0 = 1/2 mve2 + PEr,

and if v0 > ve, then KE = KEr + PEr = KEr - 1/2 mve2 :wink:
 
Thanks! I think that's ultimately what I did...I ended up subtracting 1/2mve2 from the initial kinetic energy given to the satellite when it was on the surface of the planet. I just didn't do it very elegantly. Sometimes I have to play around with equations before I know what I want to do!
 
hi alicia! :smile:

(just got up :zzz: …)

that's fine … playing around is often a good way of solving things, but (if you have time in the exams) always try to squeeze out the extra couple of marks by making it elegant! :wink:

think "elegant, not elephant!" :biggrin:
 

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