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One of the strongest emission lines observed from distant galaxies comes from hydrogen and has a wavelength of 122 nm (in the ultraviolet region). (a) How fast must a galaxy be moving away from us in order
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One of the strongest emission lines observed from distant galaxies comes from hydrogen and has a wavelength of 122 nm (in the ultraviolet region). (a) How fast must a galaxy be moving away from us in order for that line to be observed in the visible region at 366 nm

User Heraldmonkey
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1 Answer

4 votes

Answer:


v=2.4*10^8m/s

Step-by-step explanation:

From the question we are told that

Wavelength of emission
\lambda=122nm

Observation distance
d=366nm

Generally the s equation is given as


f'=f\sqrt{((1-(v)/(c) ))/(1+(v)/(c) )

where

F is inversely proportional to T


d=\lambda\sqrt{((1-(v)/(c) ))/(1+(v)/(c) )


(v)/(c) =((1-(\lambda)/(d)))/((1+(\lambda)/(d))


(v)/(c)=(1-((122)/(366) )^2)/(1+((122)/(366))^2)


(v)/(c)=(0.8888888889)/(1.11111111)


(v)/(c)=0.80


v=0.80*3*10^6


v=2.4*10^8m/s

User Anamarie
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