A given ray of light suffers minimum deviation in an equilateral prism P. Additional prisms Q and R of identical shape and material are now added to P, as shown in the figure
. The ray will suffer

A given ray of light suffers minimum deviation in an equilateral prism P. additonal prism Q and R of identical shape and material are now added to P, as shown in the figure. The ray will surffer

A ray of light suffers a minimum deviation when incident on a equilateral prism of refractive index sqrt2 . The angle of incidence is

A ray of light incident on one face of an equilateral prism at 60^@ enters and leaves prism symmetrically. Refractive index of prism material is

A rayt of light passes through an equilateral prism (refrective index = 1.5) The angle of deviation (minimum) is

A ray of light is incident making angle 36^@ with the face of an equilateral prism. If the ray suffers minimum deviation, the angle of deviation is :

The angle of minimum deviation for an incident light ray on an equilateral prism is equal to its refracting angle. The refractive index of its material is

A rays of light passes through an equilateral prism such that the angle of incidence is equal to the angle of emergence and the later is equal to (3//4)th the angle of prism. The angle of deviation is

A ray of light passes through an equilateral prism such that angle of incidence is equal to the angle of emergence. If the angle of incidence is 45^@ , what is the angle of deviation ?

A ray PQ is incident normally on the face AB of a triangular prism of refracting angle of 60^(@) , mae of a transparent material of refractive index ( sqrt(3))/( 2) , as shown in the figure. Trace the path of the ray as it passes through the prism. Also calculate the angle of emergence and angle of deviation.