Letter F is kept in front of a right triangular psim. The light rays enter perpendicular to the large rectangular face, is reflected twice by small rectangular faces and exits perpendicularly to the large rectangular face (see Fig.). Draw the image of the letter seen by the eye.

A ray of white light passes through a rectangular glass slab, entering and emerging at parallel faces. The angle of incidence measured from the normal to the glass surface, is large. Then

Light from a luminious point on the lower face of a rectangular glass slab , 2 cm thick, strikes the upper face and the totally reflected rays outline a circle of 3.2 cm radius on the lower face. Find the refractive index of the glass.

A light ray falls on a rectangular glass slab as shown. The index of refraction of the glass, if total internal reflection is to occur at the vertical face, is

A point object O is placed at a distance of 62 cm in front of a concave mirror of focal length f = 20 cm . A glass slab of refractive index mu = (3)/(2) and thickness 6 cm is inserted between the object and the mirror. Let’s define final image as image formed after the light ray originating from O passes through the slab, gets reflected from the mirror and then again passes through the slab. At what distance d from the mirror, the face AB of the slab can be placed so that the final image is formed inside the slab itself?

Two spherical concave mirrors of equal focal length are put against each other with their reflecting surfaces facing each other. The upper mirror has an opening at its centre. A small object (O) is kept at the bottom of the cavity so formed (see Figure). The top mirror produces a virtual image of the object and the lower mirror then creates a real image of the virtual image. The second image is created just outside the cavity mouth. This creates an optical illusion as if the object is raised above its original position. (a) Prove that the height h shown in the Figure is related to focal length of the mirror as (1)/(f) = (1)/(h) + (1)/(h+((1)/(h)-(1)/(f))^(-1)) (b) Rewrite the above equation in terms of x = (h)/(f) and solve if for x.

A rectangular glass block (mu = 1.5) is on top of a sheet of paper on which there on which there is a small dot. There is a layer of liquid between the paper and the glass block. The dot is visible through a vertical face up to a point where the angle of emergence of light (starting from the dot) is 30° . Find the refractive index (m_(0)) of the liquid. Can we see the dot through a vertical face if the liquid layer is replaced with air? sin^(-1).(2)/(3) = 42^(@)

In an experiment with a rectangular glass slab, a student observed that a ray of light incident at an angle of 55^(@) with the normal on one face of the slab, after refraction struck the opposite face of the slab before emerging out into air making an angle of 40^(@) with the normal. Draw a labelled diagram to show the path of this ray.