Calculate dispersive power of a transparent material given :
`n_v = 1.56 , n_r = 1.54 , n_y = 1.55` 

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 .

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 ?

For a material medium, the values of refractive index for violet and colours are given as n_(v) =1.56 and n_r=1.44 . The dispersive power of a prism made out of this material is

A certain material has refractive indices 1.56, 1.60 and 1.68 for red, yellow and violet light respectively. (a) Calculate the dispersive power. (b) Find the angular dispersion produced by a thin prism of angle 6° made of this material.

A medium has n_v = 1.56, n_r=1.44 . Then its dispersive power is:

Solve for n : (n+1) ! = 56 (n-1) !

A hollow double concave lens is made of very thin transparent material. It can be filled with air or either of two liquids L_(1) or L_(2) having refractive indices n_(1) and n_(2) , respectively (n_(2) gt n_(1) gt 1) . The lens will diverge parallel beam of light if it is filles with

Light of wavelenght 4000 A is incident at small angle on a prim of apex angle 4^(@) . The prism has n_(v)=1.5 and n_(r)=1.48 . The angle of dispersion produced by the prism in this light is:

The electirc potential between a proton and an electron is given by V = V_0 ln (r /r_0) , where r_0 is a constant. Assuming Bhor model to be applicable, write variation of r_n with n, being the principal quantum number. (a) r_n prop n (b) r_n prop (1)/(n) (c ) r_n^2 (d) r_n prop (1)/(n^2)