Two coherent sources `S_(f)` and `S_(2)` (in phase with ech other) are placed at a distance of `2lambda` as shown where `lambda` is wavelength of sound. A detector moves on line `A B` parrallel to `S_(1)S_(2)`. If detector detects maximum intensity at finite distance from `O` at `theta = +- ((pi)/(n))`. Find `n`

Two coherent point sources S_1 and S_2 are separated by a small distance d as shown. The fringes obtained on the screen will be

Two coherent light sources S_1 and S_2 (lambda=6000Å) are 1mm apart from each other. The screen is placed at a distance of 25cm from the sources. The width of the fringes on the screen should be

Two source of sound, S_(1) and S_(2) , emitting waves of equal wavelength 2 cm , are placed with a separation of 3 cm between them. A detector can be moved on a line parallel to S_(1) S_(2) and at a distance 24 cm from it. Initially, the detecor is equidistant from the two sources. Assuming that the waves emitted by the sources are in phase, find the minimum distance through which the detector should be shifted to detect a minimum of sound.

Two microwave sources S_(1) and S_(2) are located at a distance of 4 lambda from each other along Y-axis,with S_(1) at the origin as shown in the figure.A microwave detector D moves along the X-axis away from S_(1) .The first maximum is obtained for x equal to: (wavelength of the microwave is

Two coherent point sources S_(1) and S_(2) vibrating in phase emit light of wavelength lambda . The separation between the sources is 2lambda . Consider a line passing through S_(1) and perpendicular to line S_(1) S_(2) . Find the position of farthest and nearest minima. .

Two monochromatic coherent point sources S_(1) and S_(2) are separated by a distance L. Each sources emits light of wavelength lambda , where L gt gt lambda . The line S_(1) S_(2) when extended meets a screen perpendicular to it at point A. Then

Two sources S1 and S2 emitting light of wave lengths 600 nm are placed a distance 1.0 x 10^(2) cm apart..A detector can be moved on the line which is perpendicular to SiS_(2) . Find out the position of first.minimum detected.