A double slit is illuminated by a light of wavelength 6000 Å. The slits are 0.1 cm apart and the screen is 1 m away. Find (i) The angular position of 10th bright fringe and (ii) Distance between two successive dark bands.

The angular width of central maximum of a Fraunhofer diffraction fringe formed by a narrow slit is measured. For this, the slit is illuminated by a light of wavelength 6000 Å. When the slit is illuminated by light of another wavelength, it is found that the angular width decreases by 30%. Find the wavelength of the light used in the second case. Now, in the first case, the total set-up of the experiment is immersed in a liquid. It is found that, the angular width of central maximum decreases by same amount. Calculate the refractive index of the liquid.

A fraunhofer diffraction pattern is formed by a light,of wavelength 600nm, through a slit if width 1.2 mu m . Find the angular position of the first minimum and angular width of the central maximum.

A ray of light wavelength 6xx10^(-5) cm after passing through two narrow slits, 1mm apart, forms interference fringes on a screen placed 1m away. Find the distance between two successive bright bands of the fringes.

In Young's experiment with a monochromatic light of wavelength 5890 Å , the slits are separated by a distance 1 mm. Find the angular width between two successive interference fringes.

Light of wavelength 6500 Å passes through a slit 0.1 cm wide and forms a diffraction pattern on a screen 1.8 m away. The width of the central maximum in mm is

In Young's double slit experment red light of wavelenght 6000 Å is used and at point P on the screen n th bright bands is obtained. Keeping the set -up of the experiment same now green light of wavelength 5000 Å is used and at point P on the screen (n+1) th bright band is obtained . Find the magnitude of n.

A light of wave length 589 nm is passed through a single slit of width 1mm and a diffraction pattern is observed. Find angular width of central bright band.

The distance between the two slits in Young's double slit experiment is 0.02 cm. Interference fringes for light of wavelength 6000 Å are formed on the screen at a distance of 80 cm from the slits. Determine the distance of the fifth bright fringe.