In figure a point source S is placed at a height h above the plane mirror in a medium of refractive index `mu`.

Find the distance between the images.

In figure, a point source S is placed at a height h above the plane mirror in a medium of refractive index mu . a. Find the number of images seen for normal view. b. Find the distance between the images.

A point source of light is placed in front of a plane mirror.

A point source is placed at a depth h below the surface of water (refractive index = mu ). The medium above the surface area of water is air from water.

A point source of light is placed at a depth of h below the surface of water of refractive index mu . A floating opaque disc is placed on the surface of water so that light from the source is not visible from the surface. The minimum diameter of the disc is

If light travels a distance of 5 m in a medium of refractive index mu , then equivalent path in vaccum it would travel in same time is

A vessel having perfectly reflecting plane botton is filled with water (mu=4//3) to depth d. A point source of light is placed at a height h above the surface of water. Find the distance of final image from water surface.

Consider the situation shown in figure. A plane mirror is fixed at a height h above the bottom of a beaker containing water (refractive index mu ) up of a bottom formed by the mirror.Find the position of the image of bottom formed by the mirror.

A plane mirror is placed at the bottom of a tank containing a liquid of refractive index mu . P is a small object at a height h above the mirror. An observer observes P and its image in the mirror. The apparent distance between two will be

A concave mirror of radius of curvature h is placed at the bottom of a tank containing a liquid of refractive index mu upto a depth d. An object P is placed at height h above the bottom of the miror. Outside the liquid, an observer O views the object and its image in the mirror. The apparent distance between these two will be

A point source is placed at a depth h below the surface of water (refractive index = mu). (a) Show that light escapes through a circular area on the water surface with its centre directly above the point source. (b) Find the angle subtended by a radius of the area on the source.