For the situation depicted in the following figure, `BP - AP = lambda // 3` and D » d. The slits are of equal widths, having intensity `I_(0)`. If the intensity of Pis `kI_(0)`, find k.

In the arrangement shown in the following figure, the wavelength of light used is lambda . The distance between slits S_(1) and S_(2) is d (« D). The distance between S_(3) and S_(4) is u=lambda D // 3d . If the ratio of maximum to minimum intensity observed on screen is k. Find k.

In Young's double - slit experiment, the distance between slits is d = 0.25 cm and the distance of the screen D = 120 cm from the slits. If the wavelength of light used is lambda=6000Å and I_(0) is the intensity of central maximum, then the minimum distance of the point from the centre, where the intensity is (I_(0))/(2) is kxx10^(-5)m . What is the value of k?

figure shows three equidistant slits illuminated by a monochromatic parallel beam of light. Let BP_0 -AP_0 = lambda/3 and Dgtgtlambda . (a) Show that d = sqrt ((2lambdaD)//3) (b) Show that the intensity at P_0 is three times the intensity due to any of the three slits individually.

In YDSE, D = 2 mm, D = 2 m, and lambda = 500 nm . If intensities of two slits are I_(0) and 9I_(0) , then find intensity at y = (1)/(6) mm .

In a double slit experiment ,the separation between the slits is d=0.25cm and the distance of the screen D=100 cm from the slits .if the wavelength of light used in lambda=6000Å and I_(0) is the intensity of the central bright fringe.the intensity at a distance x=4xx10^(-5) in form the central maximum is-

In a double slit experiment, the separation between the slits is d = 0.25 cm and the distance of the screen D = 100 cm from the slits. If the wavelength of light used is lambda = 6000 Å and I_(0) is the intensity of the central bright fringe, the intensity at a distance x =4xx10^(-5)m from the central maximum is

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.

In a double slit experiment, the separation between the slits is d and distance of the screen from slits is D. If the wavelength of light used is lambda and I is theintensity of central bright fringe, then intensity at distance from central maximum is