In a double slit interference experiment, light used is 450nm wavelength, double slit separation is 0.05mm, and the screen is 2m away from the double slits. Use the approximation sin(θ) ≈ tan(θ) when θ is very small (true for this problem), determine the distance between the first order bright line (maximum) and the fourth order bright line (maximum) on screen.
In a double slit interference experiment, light used is 450nm wavelength, double slit separation is 0.05mm, and the screen is 2m away from the double slits. Use the approximation sin(θ) ≈ tan(θ) when θ is very small (true for this problem), determine the distance between the first order bright line (maximum) and the fourth order bright line (maximum) on screen.
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter35: Diffraction And Interference
Section: Chapter Questions
Problem 40PQ
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In a double slit interference experiment, light used is 450nm wavelength, double slit separation is 0.05mm, and the screen is 2m away from the double slits. Use the approximation sin(θ) ≈ tan(θ) when θ is very small (true for this problem), determine the distance between the first order bright line (maximum) and the fourth order bright line (maximum) on screen.
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