Consider the arrangement shown in figure. The distance D is large compared to the separation d between the slits.

Find the minimum value of d so that there is a dark fringe at 0.

Consider the arrangement shown in figure. By some mechanism, the separation between the slits S_3 and S_4 can be changed. The intensity is measured at the point P which is at the common perpendicular bisector of S_1 S_2 and S_3 S_4 . When z=(Dlambda)/(2d) , the intensity measured at P is I. Find the intensity when z is equal to (a)(Dlambda)/d (b)(3Dlambda)/(2d) (c) (2Dlambda)/d .

Consider two slit interference arrangements as shown in figure . The distance of screen from the slits is half the distance between the slits. Then the value of 'D' if fisrt minima on screen falls at a distance D from the centre 'C' ( lambda is the wavelength of the source).

Consider a two slit interference arrangements (figure) such that the distance of the screen from the slits is half the distance between the slits. Obtain the value of D in terms of lambda such that the first minima on the screen falls at a distance D from the centre O.

Consider a two slit interference arrangements (figure) such that the distance of the screen from the slits is half the distance between the slits. Obtain the value of D in terms of lambda such that the first minima on the screen falls at a distance D from the centre O.

In the arrangment shown in fin. For what minimum value of d is there a dark bant at point O on the screen?

Two ideal slits S_(1) and S_(2) are at a distance d apart, and illuninated by light of wavelength lambda passing through an ideal source slit S placed on the line through S_(2) as shown. The distance between the planes of slits and the source slit is D.A screen is held at a distance D from the plane of the slits. The minimum value of d for which there is darkness at O is (dlt lt D)

Consider the circuit shown in the figure. Find the charge on capacitor C between A and D in steady state.

In a Young's double slit experiment, D equals the distance of screen and d is the separation between the slits. The distance of the nearest point to the central maximum where the intensity is same as that due to a single slit is equal to

Two square plates of side 'a' are arranged as shown in the figure. The minimum separation between plates is 'd' and one of the plate is inclined at small angle alpha with plane parallel to another plate. The capacitance of capacitor is (given alpha is very small)

In the following figures, area of each plate is A and d is separation between adjacent plates. Find the capacitance of system between points A and B .