In YDSE intensity at central maxima is `I_0` The ratio `I/I_0`, at path difference `lamda/8` on the screen from central maxima , is closed to

In YDSE of equal width slits, if intensity at the center of screen is I_(0) , then intensity at a distance of beta // 4 from the central maxima is

Two slits spaced 0.25 mm apart are placed 0.75 m from a screen and illuminated by coherent light with a wavelength of 650 nm. The intensity at the center of the central maximum (theta = 0^(@)) is I_(0) . The distance on the screen from the center of the central maximum to the point where the intensity has fallen to I_(0) // 2 is nearly

Statement-1: In YDSE central maxima means the maxima formed with zero optical path difference. It may be formed anywhere on the screen. Statement-2: In an interference pattern, whatever energy disappears at the minimum, appear at the maximum.

In Young's double slit experiment, the intensity of central maximum is I . What will be the intensity at the same place if one slit is closed ?

In Young's double-slit experiment d//D = 10^(-4) (d = distance between slits, D = distance of screen from the slits) At point P on the screen, resulting intensity is equal to the intensity due to the individual slit I_(0) . Then, the distance of point P from the central maximum is (lambda = 6000 Å)

Monochromatic light of wavelength 5000 Å is used in YDSE, with slit width, d = 1 mm , distance between screen and slits, D = 1 M . If intensites at the two slits are I_1 = 4I_0 and I_2 = I_0 , find: a. finge width beta: b. distance of 5th minima from the central maxima on the screen, c. intensity at y = (1)/(3) mm, d. distance of the 1000th maxima, and e. distance of the 5000th maxima.

In a Young's double slit experiment, I_0 is the intensity at the central maximum and beta is the fringe width. The intensity at a point P distant x from the centre will be

In a Young's double slit experiment, I_0 is the intensity at the central maximum and beta is the fringe width. The intensity at a point P distant x from the centre will be

In a Young's double slit experiment, I_0 is the intensity at the central maximum and beta is the fringe width. The intensity at a point P distant x from the centre will be

Distance between the slit shown in figure is d = 20 lambda , where lambda is the wavelength of light used. Find the angle theta where a. central maxima (where path difference is zero) is obtained, and b. third-order maxima is obtained.