The path difference of two identical waves arriving at a point is `100.5 lambda`. The phase difference is 44 micrometer. The wavelength of light is used is

The path difference between two identical waves arriving at a point is 85.5lambda .. If the path difference is 42.5 micrometer, the wavelength is

The optical path difference between two identical waves arriving at a point is 371 lambda . Is the point bright or dark ? If the path difference is 0.24 mm . Calculate the wavelength of light used .

The phase difference between the two waves reaching an arbitary point P from S_1 and S_2 is given by

What is the phase difference between two points on a wavefront ?

The distances of a point on the screen from two coherent sources differ by 93 wavelengths . Is the point bright or dark ? If the path difference is 0.0465 mm , calculate the wavelength of the source of light .

State the path difference between two waves for constructive interference .

State the path difference between two waves for destructive interference .

Choose the correct option? The wave number of two sound waves are 0.625 m^-1 and 1.25 m^-1 . The difference between their wavelength is

In a biprism experiment the distance between the slit and eyepiece is 1 m and two virtual sorces formed by the biprism are 0.5 mm apart . If the wavelength of light is used is 6000 overset (@)(A) , find the band width .

In biprism experiment the distance between 4th and 13th bright fringes on same side is measured when light of wavelength 6000 overset (@)(A) is used.On replacing the source of light by another of different wavelength without disturbing the adjustment of the apparatus, it is found that the distance between the 5th and 15th bright fringe on same side is the same as distance measured before. What is the wavelength of light used?