For an eye kept at a depth h inside water is refractive index `mu`, and viewed outside, the radius of circle through which the outer objects can be seen will be

If we see the outside objects by keeping an eye at a depth h inside water of refractive index u, then the value of RADIUS of circle of view for outside objects will be

There is a small black dot at the centre C of a solid glass sphere of refractive index mu . When seen from outside, the dot will appear to be located

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 concave mirror of radius R is kept on a horizontal table. Water (refractive index =mu.) is poured into it up to a height h. Where should an object be placed so that its image is formed on itself ?

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.

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

Object O is kept in air in fron of a thin plano convex lens of radius of curvature 10cm. It's refractive index is 3//2 and the medium toward right of plane surface is water of refractive indec 4//3 . What should be the distance x of the object so that the rays become parrallel finall?

A vesse of depth x is half filled with oil of refractive index mu_(1) and the other half is filled with water of refrative index mu_(2) . The apparent depth of the vessel when viewed above is

A cylinder is filled with a liquid of refractive index mu . The radius of the cylinder is decreasing at a constant rate K . The volume of the liquid inside the container remains constant at V . The observer and the object O are in a state of rest at a distance L from each other. When radius of cylinder is r the apparent velocity of the object as seen by the observer is

An object of height 1mm is placed inside a sphere of refractive index mu=2 and radius of curvature 20 cm as shown in the figure. Find the position, size, and nature of image, for the situation shown in Figure. Draw ray diagram.