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Sagot :
The Rayleigh criterion for diffraction allows finding that the answer for the separation of the telescopes is:
D = 6.54 10⁶ m
The Rayleigh criterion determines how close two light sources can be so that they can be seen separated, the Rayleigh criterion statement is that the first minimum of diffraction of a star coincides with the maximum of the other star, this method gives that the diffraction equation remains
θ = 1.22 [tex]\frac{\lambda}{D}[/tex]
Where θ is the diffraction limit, λ the wavelength and d the diameter of the detection system.
As the observation is taken by two telescopes, the diameter of the lens is the separation of the telescopes
D = 1.22 [tex]\frac{\lambda}{\theta}[/tex]
Let's reduce the magnitudes to the system intentional of measures
x = 55 106 ly () = 55 10¹¹ m
θ = 50 10-6 arcseconds ( ) = 242.4 10⁻¹² radians
λ = 1.3 mm ( ) = 1.3 10⁻³ m
Let's calculate
D = 1.22 [tex]\frac{1.3 \ 10^{-3} }{242.4 10^{-12}}[/tex]
D = 6.54 10⁶ m
In conclusion using the Rayleigh criterion for diffraction we can find the answer for the separation of the telescopes is:
D = 6.54 10⁶ m
Learn more about the Rayleigh criterion here:
https://brainly.com/question/20113743
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