Two prisms A and B are in contact with each other have angular dispersions of `2^(@)` and `4^(@)` respectively. The dispersive power of A is 0.002. If the combination produces dispersion without deviation, the dispersive power of B is

The angular dispersion produced by a prism

Two lenses of power -15D and +5 D are in contact with each other. The focal length of the combination is

If a glass prism in dipped in water its dispersive power

The deviation caused for red, yellow and violet colours for crown glass prism are 2.84^(@),3.28^(@) and 3.72^(@) respectively. The dispersive power of prism material is:

The dispersive power (w) of the material of a prism is (where symbols have their usual meanings)

A thin prism having refracting angle 10^(@) is made of glass of refracting index 1.42 . This prism is combined with another thin prism of glass of refractive index 1.7 . This combination produces dispersion without deviation. The refracting angle of second prism should be :

A thin prism of angle 15^(@) made of glass of refractive index mu_(1)=1.5 is combined with another prism of glass of refractive index mu_(2)=1.75 . The combination of the prism produces dispersion without deviation. The angle of the second prism should be

The refractive indices of a material for red, violet and yellow colour lights are 1.52, 1.62 and 1.59 respectively. Calculate the dispersive power of the material. If the mean deviation is 40^@ what will be the angular dispersion produced by a prism of this material ?

Two small angled prisms A and B deviate the blue rays by 6^(@) and 8^(@) and the red rays by 4^(@) and 6^(@) respectively. Which prism has a greater dispersive power ?

Prism angle of a prism is 10^(@) ,Their refractive index for red & violet color is 1.51 & 1.52 respectively .Then dispersive power will be