Relativity: Gravitational Redshifting

AI Thread Summary
The discussion revolves around calculating the frequency of a signal from Alpha Centauri as it reaches Earth, specifically addressing gravitational redshift. The gravitational redshift equation is mentioned, but participants note its limitations due to the assumption of infinite separation between the two bodies. There is confusion about the variables in the equation, particularly the meanings of r and rs. Participants suggest that the signal experiences redshift initially and then potentially blueshift upon reaching Earth. Clarification on the application of the equation and the variables involved is sought to solve the problem effectively.
sawre
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Homework Statement


A signal of frequency 500Ghz leaves the surface of the star Alpha Centauri,
travels through space, and arrives at the surface of the Earth. At what frequency is the signal
received on planet Earth?
(Hint: For this problem, treat Earth and Alpha Centauri as if the separation were infinite. Also,
ignore any cosmological effects, motion of the star or planet, and any interstellar scattering effects)

Homework Equations



Gravitational redshifting: 1/sqrt(rs/r) -1

The Attempt at a Solution



The equation for gravitational redshifting doesn't seem to be useful in this situation since Earth is taken to be infinitely far away. Just be thinking about it one could deduce that the signal is redshifted at first and then blueshifted at earth. But if this is correct I don't know of an equation for shifting from a low gravitational potential to a higher one. Anyone have some hints to get me thinking in the right direction?
 
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sawre said:

Homework Statement


A signal of frequency 500Ghz leaves the surface of the star Alpha Centauri,
travels through space, and arrives at the surface of the Earth. At what frequency is the signal
received on planet Earth?
(Hint: For this problem, treat Earth and Alpha Centauri as if the separation were infinite. Also,
ignore any cosmological effects, motion of the star or planet, and any interstellar scattering effects)


Homework Equations



Gravitational redshifting: 1/sqrt(rs/r) -1

The Attempt at a Solution



The equation for gravitational redshifting doesn't seem to be useful in this situation since Earth is taken to be infinitely far away. Just be thinking about it one could deduce that the signal is redshifted at first and then blueshifted at earth. But if this is correct I don't know of an equation for shifting from a low gravitational potential to a higher one. Anyone have some hints to get me thinking in the right direction?

Make sure you know what the variables r and rs represent. You may need to apply this equation more than once.

Cheers -- sylas
 
ah..i was labouring under an obviously wrong idea of what the r stood for. thanks
 
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