Two thin prisms are combined to form an achromatic combination. For prism I, `A=4^(@),mu_(R)=1.35, mu_(Y)=1.40,mu_(v)=1.42` For prism II, `mu_(R)^(')=1.7, mu_(Y)^(')=1.8 and mu_(V)^(')=1.9` . Find the prism angle of prism II and the net mean deviation.

Find the angle of the flint glass prism which should be combined with a crown glass prism of 6^@ so as to give dispersion but no deviation. For crown glass, mu_(v)=1.520, mu_(R)=1.48 For flit glass, mu_(v)=1.78,mu_(R)=1.72

A thin prism of angle 6.0^@, omega'=0.07 and mu_y'=1.50 is combined with another thin prism having omega = 0.08 and mu_y = 1.60 . The combination produces no deviation in the mean ray. (a) Find the angle of the second prism. (b) Find the net angular dispersion produced by the combination when a beam of white light passes through it. (c) If the prisms are similarly directed, what will be the deviation in the mean ray ? (d) Find the angular dispersion in the situation described in (c).

Three thin prisms are combined as shown in figure. The refractive indices of the crown glass for red, yellow and violet rays are mu_r, mu_y and mu_v respectively and those for the flint glass are mu_r^', mu_y^' and mu_v^' respectively. Find the ratio A'/A for which (a) there is no net angular dispersion, and (b) there is no net deviation in the yellow ray.

Calculate the dispersive power for crown glass from the given data mu_(v)=1.523 and mu_(r)=1.5145 .

Calculate the dispersive power for crown glass from the given data mu_(v)=1.523 and mu_(r)=1.5145 .

A crown glass prism of refracting angle 8^(@) is combined with a flint glass prism to obtain deviation without dispersion. If the refractive indicates for red and violet rays for the crown glass are 1.514 and 1.524 and for the flint glass are 1.645 and 1.665 respectivey, find the angle of flint glass prism and net deviation.

The correct relation between the refractive index ( mu ) of the material of prism (A) and angle of minimum deviation ( delta ) is

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

A thin prism of crown glass (mu_r=1.515, mu_v=1.525) and a thin prism of flint glass (mu_r=1.612, mu_v=1.632) are placed in contact with each other. Their refracting angles are 5.0^@ each and are similarly directed. Calculate the angular dispersion produced by the combination.

A small angled prism (mu = 1.62) gives a deviation of 4.8 . Calculate the angle of prism.