Consider a case of thin film interference as shown.Thickness of film is equal to wavelength of light in `mu_(2)`

When the plastic thin film of refractive index 1.45 is placed in the path of one of the interfering waves then the central fringe is displaced through width of five fringes.The thickness of the film will be ,if the wavelength of light is 5890Å

A : If a thin soap film is arranged vertically the spectrum of coloured fringes are spread equally on the film. R : The colours of the film is dependent on the thickness of film and wavelength of the light.

In order to see diffraction the thickness of the film is

In a doulble slit experiment when a thin film of thickness t having refractive index mu is introduced in from of one of the slits, the maximum at the centre of the fringe pattern shifts by one width. The value of t is (lamda is the wavelength of the light used)

On introducing a thin film in the path of one of the two interfering beam, the central fringe will shift by one fringe width. If mu=1.5, the thickness of the film is (wavelength of monochromatic light is lambda )

YDSE is carried out in a liquid of refractive index mu=1.3 and a thin film of air is formed in front of the lower slit as shown in the figure. If a maxima of third order is formed at the origin O, find the thickness of the air film. Find the positions of the fourth maxima. The wavelength of light is air is lambda_0 = 0.78 mum and D//d = 1000.

Find the thickness of a plate which will produce a change in optical path equal to half the wavelength lamda of the light passing through it normally. The refractive index of the plate is mu .

Refractive index of a thin soap film of a uniform thickness is 1.38. The smallest thickness of the film that gives an interference maxima in the reflected light when light of wavelength 5520 Å falls at normal incidence is

In a given region of 10 fringes are observed in the reflected beam from a thin film. If the wavelength of th incident light is changed from 4200 Å " to " 6000 Å , then the number of fringes observed in the same region will be

Refractive index of a thin soap film of a uniform thickness is 1.34. Find the smallest thickness of the film that gives in interference maximum in the reflected light when light of wavelength 5360 Å fall at normal incidence.