A narrow single slit is illuminated with angle infrared laser with λ = 1152 nm. The center of the tenth dark band (minimum) lies at the angle of 6° off the central axis.
(a)- What is the width of the slit?
(b)-How does this angle change if we immerse the whole experiment in water? (n = 1.33).

Explanation: In order to explain this problem we have to consider the expresion for the dark fringes in a difraction pattern for a single narrow slit. It is given by:

a*sin (θ)= m*λ where a is the slit width. θ is the angle corresponding the m dark fringe from the central axis. λ is the wavelength of the incident light.

Then we have m=10 and θ=6° so;

a=10*1152*10^-9/Sin(6°)=110 *10^-6 m

Finally if the whole system is inmmersed in water (n=1.33), we have to add the refractive index in the path difference then: a*n*sin(θ)

a*n*sin (θ)= m*λ then

a= m*λ/(n*sin (θ))=10*1152*10^-9/1.33*Sin(6°)= 82.86* 10^-6 m

A narrow single slit is illuminated with angle infrared laser with λ = 1152 nm. The center of the tenth dark band (minimum) lies at the angle of 6° off the central axis. (a)- What is the width of the slit? (b)-How does this angle change if we immerse the whole experiment in water? (n = 1.33).

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A narrow single slit is illuminated with angle infrared laser with λ = 1152 nm. The center of the tenth dark band (minimum) lies at the angle of 6° off the central axis.
(a)- What is the width of the slit?
(b)-How does this angle change if we immerse the whole experiment in water? (n = 1.33).