`P_(1),P_(2)` are the power of convex and concave lens respectively. The distance between these lenses is d. Effective power of the system of lens is:

Find the power of a concave lens of focal length 2 m .

The minimum distance between an object and its real image formed by a convex lens is

The minimum distance between an object and its real image formed by a convex lens is

A parallel beam of monochromatic light falls on a combination of a convex lens and a concave lens of focal lengths 15 cm and 5 cm respectively. What is the distance between the two lenses to obtain a parallel beam of light from the concave lens ?

If the optic axis of convex and concave lenses are separated by a distance 5 mm as shown in the figure. Find the coordinate of the final image formed by the combination if parallel beam of light is incident on lens. Origin is at the optical centre of convex lens

The magnifying power of an astronomical telescope is 8 and the distance between the two lenses is 54 cm. The focal length of eye lens and objective will be respectively.

Two convex lenses of power 2 D and 3 D are separated by a distance 1/3m . The power of the optical system formed is

The power of a lens is -5 D. Name the type of lens.

An optical system consists of two convergent lenses with focal length f_1=20 cm and f_2=10 cm. The distance between the lenses is d=30 cm. An object is placed at a distance of 30 cm from the first lens. At what distance from the second lens will the images be obtained ?

Assertion:A convex lens and a concave lens are kept in contact. They will behave as a diverging lens if focal length of convex lens is more. Reason: Power of a concave lens is always less than the power of a convex lens, as power of concave lens is negative whereas power of convex lens is positive.