Two identical glass `(mu_(w)=3//2)` equiconvex lenses of focal length f each are kept in contact. The space between the two lenses in filled with water `(mu_(w)=4//3)`. The focal length of the combination is

Two identical glass (mu_(g)=3//2) equiconvex lenses of focal length f are kept in contact. The space between the two lenses is filled with water (mu_(w)=4//3) . The focal length of the combination is

Two thin lenses of focal lengths f_(1) and f_(2) are in contact. The focal length of this combination is

If two convex lenses of focal lengths 10 cm and 5 cm are kept in contact with each other , What is their combined focal length ?

When two thin lenses are kept in contanct, the focal length of the combination is

A concave mirror of focal length f (in air) is immersed in water (mu=4//3) . The focal length of the mirror in water will be

Two similar thin equiconvex lenses, of focal length f each, are kept coaxially in contact with each other such that the focal length of the combination is F_1 . When the space between the two lenses is filled with glycerin (which has the same refractive index (mu = 1.5) as that of glass) then the equivalent focal length is f_2 . The ratio F_1 : F_2 will be:

Two thin converging lenses of focal length 15 cm and 30 cm are held in contact with each other. The focal length of the combination is

If a convex lens of focal length 20 cm and a concave lens of focal length 30 cm are kept in contact with each other . (i) What will be the focal length of the combination ? (ii) What will be the power of the combination ? (iii) What will be the behaviour of the combination ?