Two coherent monochromatic light beams of intensities I and 4I are superposed. The maximum and minimum possible intensities in the resulting beam are

Two coherent monochromatic light beams of amplitude 3 and 5 units are superposed . The maximum and minimum possible intensities in the resulting beams are in the ratio

When two coherent monochromatic light beams of intensities I and 4I are superimposed, the ratio between maximum and minimum intensities in the resultant beam is

Two incoherent sources of intensities l and 4l superpose then the resultant intensity is

Two coherent sources of intensities I_1 and I_2 produce an interference pattern. The maximum intensity in the interference pattern will be

Two waves of intensity I and 9I are superimposed in such a way that resultant Intensity is 7I .Find the phase difference between them ?

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:

Two coherent sources of different intensities send waves which interfere. The ratio of maximum intensity to the minimum intensity is 25. The intensities of the sources are in the ratio

The ratio of intensities between two coherent sound sources is 4:1 the difference of loudness in decibels between maximum and minimum intensities, when they interfere in space, is

If the ratio of amplitude of two waves is 4:3 , then the ratio of maximum and minimum intensity is

When two coherent waves interfere, the minimum and maximum intensities are in the ratio 16 : 25. Then a) the maximum and minimum amplitudes will be in the ratio 5 : 4 b) the amplitudes of the individual waves will be in the ratio 9 : 1 c) the intensities of the individual waves will be in the ratio 41 : 9 d) the intensities of the individual waves will be in the ratio 81 : 1.