Monochromatic electromagnetic radiation from a distant source passes through a slit.The diffraction pattern is observed on the screen 2.5 m from the slit. If the width of the central maximum is 6.01 mm, what is the slit width if the wavelength is:- `50mum` (infrared radiation)

Monochromatic electromagnetic radiation from a distant source passes through a slit.The diffraction pattern is observed on the screen 2.5 m from the slit. If the width of the central maximum is 6.02 mm, what is the slit width if the wavelength is:- 0.500 nm (X rays)

Monochromatic electromagnetic radiation from a distant source passes through a slit.The diffraction pattern is observed on the screen 2.5 m from the slit. If the width of the central maximum is 6.00 mm, what is the slit width if the wavelength is:- 500 nm (visible light)

Monochromatic electromagnetic radiation with wavelength from a distant source passes through a slit. The diffraction pattern is observed on a screen 2.50 m from the slit. If the width of the central maximum is 6.00 mm, what is the slit width if the wavelength is (a) 500 nm (visible light); (b) 50.0 um (infrared radiation); (c) 0.500 nm (x rays)?

In Young's experiment, the distance between two slits is 0.8mm and the distance of the screen from the slit is1.2 m. If the fringe width is 0.79 mm, the wavelength of light used is

The angular width of the central maximum in a single slit diffraction pattern is 60^@ . The width of the slit is 1 mu m. The slit is illuminated by monochromatic plane waves. If another slit of same width is made near it, Young’s fringes can be observed on a screen placed at a distance 50 cm from the slits. If the observed fringe width is 1 cm, what is slit separation distance? (i.e., distance between the centres of each slit.)

A plane wave of wavelength 5500 overset@A is incident normally on a slit of width 2 xx 10^-2 cm . The width of the central maximum on a screen 50 cms away is

Light of wavelength 6000 overset (@)(A) is incident normally on a slit . The first minimum in the diffraction pattern is observed to be at a distance of 6 mm from the central maximum on a screen , which is at a distance of 2 m from the slit . Calculate the width of the slit .

In Fraunhaffer diffraction by a narrow slit, a screen is placed, at a distance of 2 m, from the lens to obtain a diffraction pattern. If the slit width is 0.2 mm and the first minimum is 5 mm, on either side of the central maximum. Find the wavelength of light.