Find the apparent depth of object `O` below surface `AB`, seen by an observer in mediumn of refractive index `mu_(2)`

The apparent depth of an object O from AB is

In Fig. , find the apparent depth of the object seen below surface AB.

Find the apparent depth of object of the object seen by observe A (in the figure shown)

Using formula of spherical surface or otherwise, find the apparent depth of an object placed 10cm below the water surface, if seen near normally form air.

A sphere of radius R made of material of refractive index mu_(2) is placed in a medium of refractive index mu_(1) . Where would an object be placed so that a real image is formed at equidistant fromk the sphere? ltbgt

A glass sphere of refractive index 1.5 forms the real image of object O at point I as shown in the figure when kept in air of refractive index 1 . If the value of x is kR . Find k

The apparent depth of a liquid in a vessel is 15 cm, when its real depth is 20 cm. find the refractive index of the liquid.

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

A biconvex thin lens is prepared from glass of refractive index mu_(2)=(3)/(2) . The two conducting surfaces have equal radii of 20 cm each. One of the the surface is silvered from outside to make it reflecting. It is placed in a medium of refractive index mu_(1)=(5)/(3) . It acts as a

A layer of oil 3 cm thick is floating on a layer of coloured water 5 cm thick. Refractive index of coloured water is 5//3 and the apparent depth of the two liquids appears to be 36//7 cm. Find the refractive index of oil.