Consider a sphere of radius R made of glass of refractive index `mu`. A small object moves along the dismeter with a constant velocity u. Find the velocity of the image as seen by an observer outside when the object passes through center.

Consider a point object moving towards a stationary plane mirror with velocity 5m // s. Find velocity of image w.r.t object

A point object lies inside a transpatent solid sphere of radius 20cm and of refractive index n = 2 . When the object is viewed form air through the nearest surface it is seen at a distance 5 cm form the surface. Find the apparent distance of object when its seen through the farthest curved 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 solid hemispherical bowl of radius R, made of glass, is placed on a flat horizontal surface with its curved surface on the ground. A small object is placed under the hemisphere at the center of the curved surface. If an observer sees the object directly above the plane surface, Where will the object appear to be ?

A transparent glass sphere of radius 10 cm and refractive index mu=1.5 has its one half silvered so that it acts like a concave mirror. Find the position of final image for an object O at (a) 30 cm to the left of the front surface of the ball.

A 20cm thick glass slab of refractive index 1.5 is kept in front of a plane mirror. Find the position of the image (relative to mirror) as seen by an observer through the glass slab when a point object is kept in air at a distance of 40 cm from the mirror.

A hollow sphere made of a transparent material of refractive index 1.5 has a small mark on its surface as shown. The mark is observed from the farther side. Find the distance of the image of mark from the centre of the sphere.

A small air bubble O (as shown in figure) is formed inside the solid glass sphere of radius 10 cm. The refractive index of glass mu = (3)/(2) . The position of air at distance 5 cm from centre. If one half of sphere is polished. Then find the distance between images seen by observer on the left side of sphere. Assume mu = 1.5 .

A glass sphere has radius of 5.0 cm and a refractive index of 1.6. A paperweight is constructed by slicing through the sphere on a plate that is 2.0 cm from the centre of the sphere and perpendicular to radius of the sphere that passes through the centre of the circle formed by the intersection of the plane and the sphere. The paperweight is placed on a table and viewed from directly above an observer who is 8.0 cm from the table top, as shown in figure. When viewed through the paperweight, how far away does the table top appear to the observer?

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