A diffraction fringe pattern of slit width 0.2 mm is formed by a lens of focal length 50 cm. Find the distance between first minimum and the centre of the fringe pattern. The wavelength of the light used: `6 xx 10^(-5)` cm.

A narrow slit of width d is placed in front of a convex lens of focal length 0.5 m. the slit is illuminated normally by a light of wavelength 5.89 xx 10^(-7) m. If the distance between two first minima on the either side of central maximum is 2xx10^(-3) m, calculate the width d of the slit.

The radii of two circles are 10 cm and 5 cm and the distance between their centres is 13 cm. Find the length of the direct common tangent to the two circles.

A light of wavelength 6000Å from a distant source falls on a narrow slit of width 0.5 mm. As a result, a diffraction fringe pattern is formed on a screen placed at a distance 2.0 m from the slit. What is the distance between first two minima points formed on the either side of central maximum of this fringe pattern.

In Young's double slit experiment the distance between the two slits is d and wavelength of the light used is lambda . The angular width of the fringe

A beam of monochromatic parallel rays is incident normally on a narrow slit. A diffraction fringe pattern is formed on a screen, placed normally to the incident rays. Find the phase difference between two rays coming from two ends of the slit at the first minimum formed in the diffraction fringe.

A parallel beam of light of lambda = 5 xx 10^(-7) m is incident normally on a narrow slit of width 0.2 mm. The diffraction pattern is observed on a screen at the focal plane of a convex lens of f = 50 cm. Find the distance between the first two minima and the first two maxima on the screen.

For producing a fraunhofer diffraction fringe, a screen is placed 2m away from a single narrow slit. If the width of slit is 0.2 mm, it is found that first minimum lies 5 mm on either side of the central maximum. Find the wavelength of the incident light.

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 narrow slit of 2 mm width is illuminated by a monochromatic light of wavelength 500 nm. What would be the intermediate distance between two first minima on either side of a screen kept 1m away?

In Young's two slit experiment with monochromatic light fringes are obtained on a screen placed at a distance D from the slits . If the screen is moved by 5 xx 10^(-2) m towards the slits the change in fringe width 3 xx 10^(-5) m. If the distance between the slits is 10^(-3) m calulate the wavelength of the light used.