A ray of light enters a diamond (n=2) from air and is being internally reflected near the bottom as shown in the figure . Find the maximum value of angle `theta` possible.

A parallel beam of light is incident on a spherical drop of water (mu = 4//3) . Consider refraction of light at air-water interface, then reflection at water-air boundary (of course there will be refracted light energy in air as well), followed by refraction at water-air interface. Path of a typical ray refracted at A, then reflected at B and finally refracted at C has been shown in the Figure. Find the maximum value of angle delta . use sin^(-1) sqrt((20)/(27)) = 60^(@) and sin^(-1) sqrt((5)/(12)) = 40^(@) .

A ray of light entering from air into a denser medium of refractive index (4)/(3) , as shown in figure The light ray suffers total internal reflection at the adjacent surface as shown. The maximum value of angle theta should be equal to :

A ray of light strikes an air-glass interface such that a part of it is reflected into air and the rest enters glass as shown in the figure below. If angle of refraction and refractive index of glass with respect to air is r and mu respectively,then value of alpha is

Find the angle theta_(a) made by the light ray when it gets refracted from water to air, as shown in figure.