Considering normal incidence of ray, the equivalent refractive index of combination of two slabs shown in Fig. is.
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In Fig., determine the apparent shift in the position of the coin. Also, find the effective refractive index of the combinatino of the glass and water slab.

A ray of light is incident on a glass slab at grazing incidence. The refractive index of the material of the slab is given by mu=sqrt((1+y) . If the thickness of the slab is d=2m , determing the equation of the trajectory of the ray inside the slab and the coordinates of the point where the ray exits from the slab. Take the origin to be at the point of entry of the ray.

When a ray of light is incident normally on one refracting surface of an equilateral prism (Refractive index of the material of the prism =1.5

When a ray of light is incident normally on one refracting surface of an equilateral prism (Refractive index of the material of the prism =1.5 )

A ray of light is incident normally on one face of a prism as shown in figure. The refractive index of the material of the prism is (5)/(3) and the prism is immersed in water of refractive index (4)/(3) , then

Light incidence on a sphere of refractive index sqrt3 placed in a air as shown in Figure. Find the angle (theta) in degree between emergent ray and reflected ray.

Consider a ray of light incident from air onto a slab of glass (refractive index n) of width d, at an angle theta . The phase difference between the ray reflected by the top surface of the glass and the bottom surface is

Consider a ray of light incident from air onto a slab of glass (refractive index n) of width d, at an angle theta . The phase difference between the ray reflected by the top surface of the glass and the bottom surface is

Consider a ray of light incident from air onto a slab of glass (refractive index n) of width d, at an angle theta . The phase difference between the ray reflected by the top surface of the glass and the bottom surface is

A parallel beam of light is incident normally on the flat surface of a hemisphere of radius 6 cm and refractive index 1.5 , placed in air as shown in figure (i). Assume paraxial ray approxiamtion. .