In the YDSE shown below, two slits are covered with thin sheets having a thickness t and 2t and refractive indices `2mu` and `mu` respectively. The position of central maxima is shifted by a distance of N (in cm) from the central position of the screen. Find the value of N.
`[d=1 mm, D = 1 m, t = 2xx10^(-2)mm,mu=(3)/(2)]`

In the YDSE shown the two slits are covered with thin sheets having thickness t & 2t and refractive index 2mu and mu .Find the position (y) of central maxima.

In YDSE when slab of thickness t and refractive index mu is placed in front of one slit then central maxima shifts by one fringe width. Find out t in terms of lambda and mu .

In a single slit diffraction method, the distance between slit and screen is 1m . The size of the slit is 0.7mm and second maximum is formed at the distance of 2mm from the centre of the screen, then find out the wavelength of light.

In Young's double-slit experiment, let A and B be the two slit. A thin film of thickness t and refractive index mu is placed in front of A. Let beta = fringe width. Then the central maxima will shift

The figure shows a Young's double slit experimental setup. It is observed that when a thin transparent sheet of thickness t and refractive index mu is put front of one of the slits, the central maximum gets shifted by a distance equal to n fringe widths. If the wavelength of light used is lambda , t will be :

A monochromatic beam of light of 6000 Å is used in YDSE set-up. The two slits are covered with two thin films of equal thickness t but of different refractive indices as shown in figure. Considering the intensity of the incident beam on the slits to be I_(0) , find the point on the screen at which intensity is I_(0) and is just above the central maxima. (Assume that there is no change in intensity of the light after passing through the films.) Consider t = 6 mu m, d = 1 mm, and D = 1 m, where d and D have their usual meaning. Give your answer in mm.

A thin mica sheet of thickness 2xx10^-6m and refractive index (mu=1.5) is introduced in the path of the first wave. The wavelength of the wave used is 5000Å . The central bright maximum will shift

A thin mica sheet of thickness 2xx10^-6m and refractive index (mu=1.5) is introduced in the path of the first wave. The wavelength of the wave used is 5000Å . The central bright maximum will shift

A thin mica sheet of thickness 2xx10^-6m and refractive index (mu=1.5) is introduced in the path of the first wave. The wavelength of the wave used is 5000Å . The central bright maximum will shift

YDSE is carried with two thin sheets of thickness 10.4 mu m each and refractive index mu_1 = 1.52 and mu_2 = 1.40 covering the slits S_1 and S_2 respectively. If white light of range 400nm to 780 nm is used, then which wavelength will form maxima exactly at point O, the centre of the screen