In an interference pattern the position of zeroth order maxima is 4.8 mm from a certain point P on the screen. The fringe width is 0.2 mm. The position of second minima from point P is

In an interference pattern the position of zeroth order maxima is 4.8 mm from a certain point P on the screen. The fringe width is 0.2 mm. The position of second maxima from point P is

In an interference pattern produced by using a biprism, the zeroth order maxima is at a distance of 4.7mm from a point P on the screen. If the fringe width is 0.2 mm, then the distance of the second minima from the point P will be

In interference of light, beta is fringe width. The distance of n^(th) maxima from the centre of interferene pattern is

Two sources give interference pattern which is observed on a screen, D distance apart from the sources. The fringe width is 2 w . If the distance D is now doubled, the fringe width will

In Young's double slit experiment, an interference pattern is obtained on a screen by a light of wavelength 6000Å , coming from the coherent sources S_1 and S_2 . At certain point P on the screen third dark fringe is formed. Then the path difference S_1P-S_2P in microns is

In Lloyd's mirror experiment (Fig.) a light wave emitted directly be the source S (narrow slit) interferes with the wave reflected form a mirror M . As s result, an interference fringe pattern is formed on the screen Sc . the source and the mirror are separated by a distance l = 100 cm .At a certain position of the source the fringe width on the screen was equal to Deltax = 0.25 mm , and after source was moved away from the mirror plane by Delta h = 0.60 mm , the fringe width decreased eta = 1.5 times. Find the wavelength of light.

In Young's double-slit experment, the frist maxima is observed at a fixed point P on the screen. Now, the screen is continously moved away from the plane of slits. The ratio of intensity at point P to the intensity at point O (center of the screen)