The wavelength of light in vacuum is `5000Å` when it travels normally through diamond of thickness 1.0 mm find the number of waves of light in 1.0 mm of diamond. (Refractive index of diamond =2.417)

If the speed of light in diamond is 1.24xx10^8 m/s, find its refractive index.

When light of wavelength 5000 Å in vacuum travels through same thickness in glass and water, the difference in the number of waves is 400. Find thickness. (Refractive indices of glass and water are (3)/(2) and (4)/(3) respectively)

The speed of light in air is 3xx10^8 m/s. Find its speed in diamond if the refractive index of diamond is 2.42 .

Refractive index of diamond with respect to glass is 1.6 and absolute refractive index of glass is 1.5 . Find out the absolute refractive index of diamond.

A slab of transparent materials is made as shown in the figure. Monochromatic parallel beams of light are normally incident on the slabs. The thickness of C is twice the thickness of B. The number of waves is A= the number of waves in the combination of B and C. The refractive index of material A is mu_(0)=1.5 and that of C is mu_(2)=1.4

Light of wavelength 4500Å in vacuum enters into a glass block of refractive index 1.5. What is the wavelength of light in the glass block?

When white light is incident normally an oil film of thickness 10^-4 cm and refractive index. 1.4 then the wavelength which will not be seen in the reflected system of light is

A glass sheet 12xx10^(-3) mm thick (mu_(g)=1.5) is placed in the path of one of the interfering beams in a Yongs's double slit interference arrangement using monochromatic light of wavelenght 6000 A. If the central bright fringe shifts a distance equal to width of 10 bands. What is the thickness of the sheet of diamond of refractive index 2.5 that has to be introduced in the path of second beam to bring th ecentral bright fringe to original position?

Speed of light in vacuum is 3xx10^(8) m//s . Range of wavelength of visible light is 4000Å -7000Å . Find the range of frequency of visible light.

A ray of light passes through two slabs of same thickness. In the first slab n_(1) waves are formed and in the second slab n_2 . Find refractive index of second medium with respect to first.