Consider an interference pattern between two coherent sources. If `I_1 and I_2` be intensities at points where the phase difference are `pi/3 and (2pi)/3` and respectively , then the intensity at maxima is

Consider interference between waves form two sources of intensities I&4I .Find intensities at point where the phase difference is pi

Consider interference between waves from two sourceof intensities I and 4 I . Find intensities at points where phase difference is (i) pi//2 (ii) pi .

Consider interference between two sources of intensity I and 4I. Find out resultant intensity where phase difference is (i). pi//4 (ii). pi (iii). 4pi

Light waves from two coherent sources having intensities I and 2I cross each other at a point with a phase difference of 60^(@) . The intensity at the point will be

Two coherent sources each emitting light of intensity I_(0) Interfere, in a medium at a point, where phase different between them is (2pi)/3 . Then, the resultant intensity at that point would be.

Two coherent light beams of intensities I and 4I produce interference pattern. The intensity at a point where the phase difference is zero, will b:

In a standard YDSE set up,the intensity at a point where phase difference between the light from the slits is (pi)/(3) is I_(0) .The intensity of central maximum will be ?

Assertion Two coherent sources transmit waves of equal intensity I_(0) Resultant intensity at a point where path difference is lambda/3 is also I_(0) . Reason In interference resultant intensity at any point is the average intensity of two individual intensities.