The relation between the linear magification `m`, the object distance `u` and the focal length `f` is

The magnifications produced by a convex lens for two different positions of an object are m_(1) and m_(2) respectively (m_(1) gt m_(2)) . If 'd' is the distance of separation between the two positions of the object then the focal length of the lens is

The distance between the object and the real image formed by a convex lens is d. If the linear magnification is m, find the focal length of the lens in terms of d and m.

The graph shown relationship between object distance and image distance for a equiconvex lens. Then focal length of the lens is

A spherical mirror forms a real image three times the linear size of the object. If the distance between the object and the image is 80 cm, the focal length of the mirror is

Choose the correct alternative corresponding to the object distance 'u', image distance 'v' and the focal length 'F' of a converging lens from the following. (i) The average speed of the image as the object moves with uniform speed from distance (3F)/(4) to (F)/(2) is greater than the average speed of the image as the object moves with same speed from distance (F)/(2) to (F)/(4) (ii) The minium distance between a real object and its real image in case of a converging lens is 4F where F is its focal length.

Formula stating relation between focal length of a lens, object distance and image distance

For a concave lens of focal length f, the relation between object and image distance u and v, respectively, from its pole can best be represented by (u = v is the reference line) :