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

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

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

Intensity of two sources are different and waves emitting from source experience interference. If ratio of maximum and minimum intensity in interference is 25, intensity of sources is .......

Ratio of intensities of two waves is 9:1. If these two are superimposed, what is the ratio of maximum and minimum intensities?

Two beams of light of intensity I_(1), and I_(2) interfere to give an interference pattern. If the ratio of maximum intensity to that of minimum intensity is (16)/(4) then I_(1):I_(2)= .......

Ratio of intensities of two waves is given by 9: 1. Then ratio of their amplitudes is .....

Ratio of intensities of two waves are given by 4:1. Then ratio of the amplitudes of the two waves is

A point sources S emitting light of wavelength 600nm is placed at a very small height h above the flat reflecting surface AB (see figure).The intensity of the reflected light is 36% of the intensity.interference firnges are observed on a screen placed parallel to the reflecting surface a very large distance D from it. (A)What is the shape of the interference fringes on the screen? (B)Calculate the ratio of the minimum to the maximum to the maximum intensities in the interference fringes fromed near the point P (shown in the figure) (c) if the intenstities at point P corresponds to a maximum,calculate the minimum distance through which the reflecting surface AB should be shifted so that the intensity at P again becomes maximum.

Two coherent sources of intensity ratio a interfere. The value of (I_("max")-I_(min))/(I_("max")+I_(min)) is ....

A narrow monochromatic beam of light of intensity I is incident on a galss plate as shown in figure. Another identical glass plate is kept close to the first one & parallel to it. Each glass plate reflects 25% of the light incident on it and transmits the remaining find the ratio of the minimum & the maximum intensities in the interference pattern formed by the two beams obtained after one reflection at each plate.