Get the answers you need at Westonci.ca, where our expert community is always ready to help with accurate information. Explore comprehensive solutions to your questions from knowledgeable professionals across various fields on our platform. Get immediate and reliable solutions to your questions from a community of experienced professionals on our platform.
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
Thank you for your visit. We are dedicated to helping you find the information you need, whenever you need it. We hope you found what you were looking for. Feel free to revisit us for more answers and updated information. Stay curious and keep coming back to Westonci.ca for answers to all your burning questions.
