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A screen is at distance D = 80 cm form a...

A screen is at distance `D = 80` cm form a diaphragm having two narrow slits `S_(1)` and `S_(2)` which are `d = 2` mm apart.
Slit `S_(1)` is covered by a transparent sheet of thickness
`t_(1) = 2.5 mu m` slit `S_(2)` is covered by another sheet of thikness
`t_(2) = 1.25 mu m` as shown if Fig. 2.52.
Both sheets are made of same material having refractive index `mu = 1.40`
Water is filled in the space between diaphragm and screen. Amondichromatic light beam of wavelength `lambda = 5000 Å` is incident normally on the diaphragm.
Assuming intensity of beam to be uniform, calculate ratio of intensity of C to maximum intensity of interference pattern obtained on the screen `(mu_(w) = 4//3)`

Text Solution

Verified by Experts

The correct Answer is:
3
Path difference at C,
`Delta x = t_(1) (mu - 1) - t_(2) (mu - 1)`
`= mu (t_(1) - t_(2)) - (t_(1) - t_(2)) (mu - 1)`
`(2.5 - 1.25) ((1.4 xx 3)/(4 xx 10) - 1)`
`1.25 xx (2)/(40) = (2.5)/(400) implies Delta x =(1)/(16) mu m`
`phi = (2pi)/(lambda). Delta x = (2 pi xx 4)/(5000 xx 3 xx 10^(-10)) (1)/(16) xx 10^(-6)`
`implies I_(max) = 4 I_(0)`
`I` and C, `I_(c) = 2 I_(0) (1 + (cos) (pi)/(3)) = 3 I_(0)`
Required ratio `= I_(c) // I_(0) = 3`
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