Visible light of wavelength 6000 ` xx 10 ^( - 8 ) ` cm falls normally on a single slit and produces a diffraction pattern. It is found that the second diffraction minimum is at ` 60 ^(@) ` from the central maximum. If the first minimum is produced at ` theta _ 1`, then ` theta _ 1 ` is close to :

Visible light of wavelenght 8000 xx 10^(-8) cm falls normally on a single slit and produces a diffraction pattern. It is found that the Third diffraction minimum is at 45^(@) from the central maximum. If the first minimum is produced at theta_(1) then theta_(1) is close to :

Visible light of wavelength 500 nm falls normally on a single slit and produces a diffraction pattern. It is found that the diffraction pattern is on a screen 1 m away from slit. If the first minimum is produced at a distance of 2.5 mm from the centre of screen, then the width of the slit is

Visible light of wavelength 500 nm falls normally on a single slit and produces a diffraction pattern. It is found that the diffraction pattern is on a screen 1 m away from slit. If the first minimum is produced at a distance of 2.5 mm from the centre of screen, then the width of the slit is

In a single slit diffraction pattern

A bichromatic light having wavelength gamma_1 and gamma_2 falls normally on a single slit and produces a diffraction pattern. It is found that the first diffraction minimum for gamma_1 is at 30^(@) and second diffraction minimum for gamma_2 is at 45^(@) from the central maximum. If gamma_1 is 5000xx10^(-8) cm, then the value of gamma_2 is close to:

A bichromatic light having wavelength gamma_1 and gamma_2 falls normally on a single slit and produces a diffraction pattern. It is found that the first diffraction minimum for gamma_1 is at 30^(@) and second diffraction minimum for gamma_2 is at 45^(@) from the central maximum. If gamma_1 is 5000xx10^(-8) cm, then the value of gamma_2 is close to:

Light of wavelength 5900 xx 10^(-10)m falls normally on a slit of width 11.8 xx 10^(-7)m . The resulting diffraction pattern is received on a screen. The angular position of the first minimum is.

Light of wavelength 600 nm is incident normally on a slit of width 0.2 mm. The angular width of central maxima in the diffraction pattern is

Central fringe obtained in diffraction pattern due to a single slit-

A beam of light of wavelength 600 nm from a distant source falls on a single slit 1.0 mm wide and the resulting diffraction pattern is observed on a screen 2 m away What is the distance between the second bright fringe on either side of the central bright fringe ?