In the figure shown , a point object O is placed in air on the principal axis. The radius of curvature of the spherical surfaces is `60 cm.` I is the final image formed after all reflections and refractions.

In the figure, a point object O is placed in air. A spherical boundry separates two media of radius of curvature 1.0 m. AB is principal axis. The separation between the images formed due to refraction at spherical surface is

Locate the image of the point object O . The point C is centre of curvature of the spherical surface.

An object of height 0.5 cm is placed laterally in the medium of refractive index m = 1.5 at a distance 100 cm away form the pole. The radius of curvature of the surface is 20 cm. The height of the image formed after refraction is

All objects referred to the subsequent problems lie on the principal axis. In above question if the object is real, then the final image formed after two refractions :

A poinit object O is placed in front of a glass rod having spherical end of radius of curvature 30cm . The image would be formed at

A poinit object O is placed in front of a glass rod having spherical end of radius of curvature 30cm . The image would be formed at

Locate the image of the point object O in the situation shown in figure. The point C denotes the centre of curvature of the separating surface.

A solid glass sphere with radius R and an index of refraction 1.5 is silvered over one hemisphere. A small object is located on the axis of the sphere at a distance 2R to the left of the vertex of the unsilvered hemisphere. Find the position of final image after all refractions and reflection have taken place.

A plano-convex lens P and a concavo-convex lens Q are in contact as shown in figure. The refractive index o fthe material of the lens P and Q is 1.8 and 1.2 respectively. The radius of curvature of the concave surface of the lens Q is double the radius of curvature of the convex surface. The convex surface of Q is silvered. An object is placed on the placed on the principal axis at a distance 10 cm form the plane surface. The image is formed at a distance 40 cm from the plane surfaces on the same side. The focal length of the system is

Figure shows an arrangement ofan equiconvex lens (f=20 cm in air) and a concave mirror (R=80cm). A point object O is placed on the principal axis at a distance 40 cm from the lens such that the final image is also formed at the position of object. Find d.