In YDSE, `d=5lambda`, then the total no. of maxima observed upon screen will be

In the set up shown in figure dltltD and d=4lambda, find. (a) total number of maximas and minimas on the screen (b) y-coordinates corresponding to minima nearest to O.

In the set up shown in figure dltltD and d=4lambda, find. (a) total number of maximas and minimas on the screen (b) y-coordinates corresponding to minima nearest to O.

In the YDSE apparatus shown in figure, dltltD and d = 6lambda . Find (a) total number of maximas and minimas on the screen . (b) two y-coordinates corresponding to third order maxima.

In the YDSE apparatus shown in figure, dltltD and d = 6lambda . Find (a) total number of maximas and minimas on the screen . (b) two y-coordinates corresponding to third order maxima.

In a YDSE experiment two slits S_(1) and S_(2) have separation of d=2mm the distance of the screen is D=(8)/(5) m source S starts moving from a very large distance towards S_(2) perpendicular to S_(1)S_(2) as shown in figure the wavelength of monochromatic light is 500 nm. The number of maximas observed on the screen at point P as the moves towards S_(2) is

In a YDSE experiment two slits S_(1) and S_(2) have separation of d=2mm the distance of the screen is D=(8)/(5) m source S starts moving from a very large distance towards S_(2) perpendicular to S_(1)S_(2) as shown in figure the wavelength of monochromatic light is 500 n. The number of maximas observed on the screen at point P as the moves towards S_(2) is

In a YDSE experiment two slits S_(1) and S_(2) have separation of d=2mm the distance of the screen is D=(8)/(5) m source S starts moving from a very large distance towards S_(2) perpendicular to S_(1)S_(2) as shown in figure the wavelength of monochromatic light is 500 n. The number of maximas observed on the screen at point P as the moves towards S_(2) is

In a YDSE, D = 1m, d = 1mm and lambda = 1//2 mm Find the no of maxima and minima obtained on the screen.

There is a large circle (not a screen this time) around two coherent sources S_1 and S_2 kept at a distance d = 3.4 lambda . (a) Find total number of maximas on this circle. (b) Four angular positions corresponding to third order maxima on this circle.