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प्रश्न
A Young's double slit apparatus has slits separated by 0⋅28 mm and a screen 48 cm away from the slits. The whole apparatus is immersed in water and the slits are illuminated by red light \[\left( \lambda = 700\text{ nm in vacuum} \right).\] Find the fringe-width of the pattern formed on the screen.
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उत्तर
Given:-
Separation between two slits,
\[d = 0 . 28 mm = 0 . 28 \times {10}^{- 3} m\]
Distance between screen and slit (D) = 48 cm = 0.48 m
Wavelength of the red light,
\[\lambda_a = 700\text{ nm in vaccum} = 700 \times {10}^{- 9} m\]
Let the wavelength of red light in water = \[\lambda_\omega\]
We known that refractive index of water (μw =4/3),
\[μ_w = \frac{\text{Speed of light in vacuum}}{\text{Speed of light in the water}}\]
So, \[ \mu_w = \frac{v_a}{v_\omega} = \frac{\lambda_a}{\lambda_\omega}\]
\[ \Rightarrow \frac{4}{3} = \frac{\lambda_a}{\lambda_\omega}\]
\[ \Rightarrow \lambda_\omega = \frac{3 \lambda_a}{4} = \frac{3 \times 700}{4} = 525 nm\]
So, the fringe width of the pattern is given by
\[\beta = \frac{\lambda_\omega D}{d}\]
\[ = \frac{525 \times {10}^{- 9} \times \left( 0 . 48 \right)}{\left( 0 . 28 \right) \times {10}^{- 3}}\]
\[ = 9 \times {10}^{- 4} = 0 . 90 mm\]
Hence, fringe-width of the pattern formed on the screen is 0.90 mm.
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