Problem about orbital mechanics

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Homework Help Overview

The discussion revolves around a problem in orbital mechanics, specifically relating to the kinetic energy of a satellite in orbit and its gravitational potential energy. Participants are attempting to derive the height of the satellite above the Earth's surface based on given relationships between kinetic and potential energy.

Discussion Character

  • Exploratory, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • The original poster attempts to equate kinetic energy in orbit to the change in gravitational potential energy, leading to an expression for the radius of the orbit. Some participants question the calculation of kinetic energy and suggest reviewing the expressions used.

Discussion Status

The discussion is ongoing, with participants providing insights into the calculations involved. There is an acknowledgment of differing interpretations of the kinetic energy formula, and some participants express agreement with certain approaches while others seek clarification on specific steps.

Contextual Notes

Participants are working under the constraints of a homework problem, which may limit the information available for deriving the solution. The original poster expresses uncertainty about the correctness of their derived radius compared to the provided answer choices.

Andres Padilla
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Homework Statement
A satellite is in circular orbit around Earth. The orbit is such that the change in gravitational potential energy of the satellite-Earth system in going from the satellite’s location on the surface of Earth to its orbit height is equal to three times the satellite’s kinetic energy while in this orbit. How high above the surface of Earth (radius = R) is the satellite? :

A) 1⁄2R
B) 2⁄3R
C) R
D) 3⁄2R
E) 2R
Relevant Equations
I think:
Ug= -GMm/r
Ke= 1/2 mv^2

V^2=(GM/r)

Umechanical= - 1/2 GMm/r
I tried it, but I am not getting no of the given answers

According to the statement, it is saying that

3 KE (in the orbit ) = ΔUg

So, beeing R the radius of the Earth and R2 the radius of the orbit:

3 (1/2)(GMm/r2) = -GMm/r2 - (-GMm/R)

Canceling out the GMm:

(3/2)(1/r2)= (-1/r2) + (1/R)

Solving for R2

(3/2)(1/r2) + (1/r2)=(1/R)
(5/2)(1/r2)=(1/R)
(2/5)(r2)=R
r2= (5/2)R

Hoewever, this would be wrong, this is not a choice. Could someone teach me what I am doing wrong? thank you in advance :) .
 
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How have you calculated the Kinetic Energy of the satellite?
 
Hello, with KE=3 (1/2)(mv^2)
where V^2 is GMm/r2
 
Andres Padilla said:
Hello, with KE=3 (1/2)(mv^2)
where V^2 is GMm/r2

Okay, I think I agree with your answer.
 
Andres Padilla said:
Homework Statement: ... How high above the surface of Earth (radius = R) is the satellite?
 
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So the answer would be
R2-R = (5/3)R- 1 R=(3/2) R
 
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