Dynamics: Get Help Solving Apogee-Perigee Satellite Orbit Problem

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A satellite is to be placed in an elliptical orbit around Earth, with the velocity ratio at apogee to perigee equal to the distance ratio from the Earth's center. The distance between apogee and perigee is 80,000 km, and the energy per unit mass required for the orbit is 57.5 MJ/kg. The discussion involves using conservation of momentum and energy equations, but participants are struggling with eliminating variables related to the Earth's radius and distances. Clarification is sought on how to incorporate the Earth's radius into the equations effectively. The problem remains unresolved, with users seeking further guidance on the calculations.
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Homework Statement



A Satellite is to be placed in an elliptic orbit about the earth. Knowing that the ration Va/Vp of the velocity at the apogee A to the velocity at perigee P is equal to the ration Rp/Ra of the distance to the center of the Earth at P to that at A, and the distance between A and P is 80,000 km, determine the energy per unit mass required to place the satellite in its orbit by launching it from the surface of the earth.

Pic:

Va v-----Ra---------O----Rp----^ Vp

|---------80,000km---------|

Homework Equations


Conservation of Momentum: T1 + V1 = T2 + V2
T = .5mv^2
V = - GMm/r


The Attempt at a Solution


Va/Vp = Rp/Ra
Ra = 80,000 - Rp
E = T + V
E = 0.5mv^2 - GMm/r
E/m = .5v^2 - GM/r

I'm not sure where to go next. I know the final answer is 57.5 MJ/kg. How are all the 'r's and 'v's eliminated by just using the ratio? I'm generally able to solve these questions, but I've been working on this one for hours with no luck. Any help is greatly appreciated!
 
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Hi kaos4! :smile:

It's launched from the surface of the Earth …

so where is the Earths's radius in your equations? :wink:
 
hmm..I considered that. That would give me GM, but still Ra and Rb would be unknown. Unless I am missing something, but the Earth's radius would just add another number, not eliminate any variable (Earths radius is a part of Ra and Rb). Thanks for the advice though, I will try and see how else I can apply the Earth's radius.
 

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