The relation between `n_1 and n_2` if the behaviour of light ray is as shown in the figure

The relation between n_(1) and n_(2) , if behaviour of light rays is as shown in figure is :

What is the relation between the refractive indices mu,mu_(1) and mu_(2) if the behaviour of light rays is shown in Figure.

Relation between Neopentane and n- pentane is ?

A ray of light enters a spherical drop of water of refractive index p as shown in the figure. An expression of the angle between incidence ray and emergent ray (angle of deviation) as shown in the figure is

If the behavior of light rays through a convex lens is as shown in the adjoining figure, then

Let us consider two forces F_(1) and F_(2) acting on body of mass 2 kg as shown in the figure F_(1) = 10 N, F_(2) = 2 N , what will be the accelaration ?

A prism of refractive index n_(1) & another prism of reactive index n_(2) are stuck together without a gap as shown in the figure.The angle of the prisms are as shown. n_(1)&n_(2) depend on lambda ,the wavelength of light according to n_(1)=1.20+(10.8xx10^(4))/(lambda^(2)) & n_(2)=1.45+(1.80xx10^(4))/(lambda^(2)) where lambda is in nm. (i)Calculate the wavelength lambda_(0) for which rays incident at any angle on the interface BC pass through without bending at that interface.

A ray of light enters a spherical drop of water of refractive index mu as shown in figure. Q. An expression of the angle between incident ray and emergent ray (angle of deviation) as shown in figure.

Two light rays 1 and 2 are incident on two faces AB and AC on an isosceles prism as shown in the figure. The rays emerge from the side BC. Then,

A beam of light parallel to central line AB is incident on the plane of slits. The number of minimum, obtained on the large screen is n_1 . Now if the beam is tilted by some angle (!= 90^@) as shown in figure, then the number of minima obtained is n_2 . Then,