A monochromatic light source of wavelength `lamda` is placed at S. three slits `S_(1),S_(2)` and `S_(3)` are equidistant from the source S and the point P on the screen `S_(1)P-S_(2)P=lamda//6` and `S_(1)P-S_(3)P=2lamda//3`. if I be the intensity at P when only one slit is open the intensity at P when all the three `slits` are open is-

In the figure shown S_(1)O-S_(2)O=S_(3)O-S_(2)O=(lambda)/(4) , Intensity at O due to any one of the slits is I_(0) . What is the intensity due to all the three coherent sources S_(1), S_(2) and S_(3) ?

In arrangement shown in figure, plane wavefront of monochromatic light of wavelength lamda is incident on identical slits S_(1) and S_(2) . There is another pair of indentical slits S_(3) and S_(4) which are having separation Z = (lamda D)/(2d) Point O is on the screen at the common perpendicular bisector of S_(1)S_(2) and S_(3) S_(4).I_(1) is the intensity at point O Now the board having slits S_(3)S_(4) is moved upward parallel to itself and perpendicular to line AO till slit S_(4) is on line AO and it is observed that now intensity at point O is I_(2) then (I_(2))/(I_(1)) is :

In a young's doule slits experiment, a monochromatic source of wavelength lambda is used to illuminate the two slits S_(1) and S_(2) . The slitss S_(1) and S_(2) are identical and source S is placed symmetrically as shown. interference pattern is observed on a screen at a distance D from the centre of slit. The distance between the slits is d. If the resultant intensity at P is same as that O, then the distance OP can not be

In a young's doule slits experiment, a monochromatic source of wavelength lambda is used to illuminate the two slits S_(1) and S_(2) . The slitss S_(1) and S_(2) are identical and source S is placed symmetrically as shown. interference pattern is observed on a screen at a distance D from the centre of slit. The distance between the slits is d. If the size of slits S_(1) is slightly decreased, then

In a young's doule slits experiment, a monochromatic source of wavelength lambda is used to illuminate the two slits S_(1) and S_(2) . The slitss S_(1) and S_(2) are identical and source S is placed symmetrically as shown. interference pattern is observed on a screen at a distance D from the centre of slit. The distance between the slits is d. If the source is moved up by a very small distance y_(0) , the central maxima will shift

In the case of light waves from two coherent sources S_(1) and S_(2) , there will be constructive interference at an arbitrary point P, the path difference S_(1)P - S_(2)P is

Monochromatic light of wavelength lamda passes through a very narrow slit S and then strikes a screen placed at a distance D = 1m in which there are two parallel slits S_(1) and S_(2) as shown. Slit S_(1) is directly in line with S while S_(2) is displaced a distance d to one side. The light is detected at point P on a second screen, equidistant from S_(1) and S_(2) When either slit S_(1) or S_(2) is open equal light intensities I are measured at point P. When both slits are open, the intensity is three times as large i.e. 3 I . If the minimum possible wavelength is Nd^(2) , then find the value of N (d lt lt D)

In the arrangement shown in figure, light of wavelength 6000 Å is incident on slits S_(1) and S_(2) have been opened such that S_(3) is the position of first maximum above the central maximum and S_(4) is the closest position where intensity is same as that of the ligth used, below the central maximum Point O is equidistant from S_(1) and S_(2) and O' is equidistant from S_(3) and S_(4) . Then intensity of inciden light is I_(0) Find the intensity at O' (on the screen).

In the arrangement shown in figure, light of wavelength 6000 Å is incident on slits S_(1) and S_(2) have been opened such that S_(3) is the position of first maximum above the central maximum and S_(4) is the closest position where intensity is same as that of the ligth used, below the central maximum Point O is equidistant from S_(1) and S_(2) and O' is equidistant from S_(3) and S_(4) . Then intensity of inciden light is I_(0) Find the intensity of the brightest fringe.

Consider the situation shown in figure. The two slits S_1 and S_2 placed symmetrically around the central line are illuminated by a monochromatic light of wavelength lamda . The separation between the slits is d. The light transmitted by the slits falls on a screen Sigma_1 placed at a distance D from the slits. The slit S_3 is at the placed central line and the slit S_4 , is at a distance z from S_3 . Another screen Sigma_2 is placed a further distance D away from 1,1. Find the ratio of the maximum to minimum intensity observed on Sigma_2 if z is equal to a. z=(lamdaD)/(2d) b. (lamdaD)/d c. (lamdaD)/(4d)