How Can You Find the Mass of a Satellite Without a Given Radius?

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SUMMARY

The discussion focuses on calculating the mass of a satellite orbiting Earth using gravitational potential energy and force. The key variables include gravitational constant (G), mass of Earth (m_e), gravitational potential energy (-U), and the force (F) exerted by the satellite. It is established that while the equation U=-(G*m_e*m)/r cannot directly yield mass (m) or radius (r) separately, the additional information about force allows for a solution by combining both force and potential energy equations.

PREREQUISITES
  • Understanding of gravitational potential energy
  • Knowledge of Newton's law of universal gravitation
  • Familiarity with the gravitational constant (G)
  • Basic algebra for manipulating equations
NEXT STEPS
  • Explore the relationship between force and gravitational potential energy in orbital mechanics
  • Learn how to derive mass and radius from gravitational equations
  • Study the implications of Newton's law of universal gravitation on satellite motion
  • Investigate the concept of orbital dynamics and its applications
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Students in physics, aerospace engineers, and anyone interested in orbital mechanics and gravitational calculations.

Lemmy
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Okay I understand somewhat of this topic of grav potential energy but i got stumped on this one question. I am to find the mass of a satellite orbiting Earth with the given variables of (F)(units: kN) which is the force the sattelite attracts the earth, and given the gravitational potential energy (-U). You are also givin the gravitational constant (G), and the Earth (m_e)

How could you find the mass (m) of the sattelite without a given radius in the equation U=-(G*m_e*m)/r ?

How would i rewrite this equation

any help would be great thanks
lemmy
 
Last edited:
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Hi Lemmy,

You are correct that if you were given only gravitational potential energy (and the mass of the Earth and G) then you couldn't figure out m or r separately but only in the combination m/r. However, you have an extra piece of information: you know the force. Write out what the force is and see if you can find a way to solve for m and r using both F and U.
 

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