In an interference experiment, 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 the interference pattern obtained in a biprism experiment, 5th order bright fringe is obtained at a point on the screen, when monochromatic light of wavelength 6000 Å is used. What is the order of the bright fringe produced at the samme point, if the light of wavelength 5000 Å is used?

In a biprism experiment, using monochromatic lightof wavelength 6000 Å, 8th bright band is obtained at a point on the screen. What is the wavelength of the another source, which produces the 12th bright band at the samme point?

In a Young’s double slit experiment, 16 fringes are observed in a certain segment of the screen when light of wavelength 700 nm is used. If the wavelength of light is changed to 400 nm, the number of fringes observed in the same segment of the screen would be:

In Young's double slit experiment, red light of wavelength of 6000Å is used and the n^(th) bright fringe is obtained at a ponit P on the screen. Keeping the same setting, the source of light is replaced by green light of wavelength 5000Å and now (n+1)^(th) bright fringe is obtained at the point P on the screen. The value of n is

A monochromatic light beam of wavelength 5896Å is used in double slit experiment to get interference patter on a screen. 9th bright fringe is seen at a particular position on the screen. At the same point on the screen. If 11th bright fringe is to be seen, the wave length of the light that is needed is (nearly)

Coherent light with wavelength 600nm passes through two very narrow slits and the interference pattern is observed on a screen 3.00 m from the slits. The first order bright fringe is at 4.94 mm from the centre of the central bright fringe. For what wavelength of light will the first order dark fringe be observed at this same point on the screen?

Red light of wavelength 6000 Å is used in a Young's double-slit experiment. At a point P on the screen n^(th) bright fringe is obtained . When red light is replaced with blue light of wavelengh 4000 Å, ( n + 1)^(th) bright fringe is obtained at the same point P. Calculate the value of n.

In Young's double slit experiment, 5th dark fringe is obtained at a point. If a thin transparent film is placed in the path of one of waves, then 7th bright is obtained at the same point. The thickness of the film in terms of wavelength lambda and refractive index mu will be