In an interference experiment, intensity ratio at bright to dark fringe is `9 : 1`, Amplitudes of interfering waves are in the ratio

In an interference pattern the ratio of the intensity of light at the bright fringe to that at the dark fringe is 9 : 1 . Then the ratio of the amplitudes of the two interfering waves.

In Young’s experiment, the interference pattern is found to have an intensity ratio between the bright and dark fringes as 9. What is the ratio of intensity of two interfering waves ?

In an interference exeperiment, third bright fringe is obtained at a point on the screen with a light of 700 nm. What should be the wavelength of the light source in order to obtain 5th bright fringe at the same point?

In Young’s experiment, the ratio of maximum to minimum intensities of the fringe system is 4 : 1 . The amplitudes of the coherent sources are in the ratio

In Young’s double slit experiment, intensity at a bright fringe is I_0 . One of the slits is closed. Intensity at the same position is

In Young’s double slit experiment on interference, the ratio of the intensities of a bright band and a dark band is 16 : 1. The ratio of the amplitudes of the interfering waves is

Compare I_("max") and I_("min") with amplitudes of the interfering waves.

Give the formula for the linear separation of bright and dark fringes.

In an interference experiment using waves of same amplitude, path difference between the waves at a point on the screen is lambda//4 . The ratio of intensity at this point with that at the central bright fringe is