Light propogates x cm distance in a medium of refractive index `mu` in time `t_(0)`. In the same time `t_(0)`, light propogates a distance of `x/6` cm in a medium of refractive index `mu`. If `mu'=kmu` find the value of k.

Light propagates 2 cm distance in glass of refractive index 1.5 in time t_(0) . In the same time t_(0) , light propagates a distance of 2.25 cm in medium. The refractive index of the medium is

If c is the velocity of light in free space, the time taken by light to travel a distance x in a medium refractive index mu is

If c is the velocity of light in free space, then the time taken by light to travel a distance x in a medium refractive index mu is

If light travels a distance of 5 m in a medium of refractive index mu , then equivalent path in vaccum it would travel in same time is

If c is velocity of light in vacuum and v is the velocity of light in a medium of refractive index mu , then

A thin lens made of a material of refractive index mu_(0) has a focal length f_(0) in air. Find the focal length of this lens if it is immersed in a liquid of refractive index mu .

A ray of light, travelling in a medium of refractive index 'mu_, is incident at an angle i on a composite transparent plate consisting of three plates of refractive indices mu_1,mu_2 and mu_3. The ray emerges from the composite plate into a medium of refractive index mu_4, at angle x. Then,

If a convex lens of refractive index mu _l is placed in a medium of refractive index mu_m Such that mu_l > mu_m > mu_(air) then

A light ray incident along vector 2hati+4hatj+sqrt(5)hatk strikes in the x-z from medium of refractive index sqrt(3) and enters into medium II of refractive index is mu_(2) . The value of mu_(2) for which the value of angle of refraction becomes 90^(@) is

Two parallel rays are travelling in a medium of refractive index mu_(1)=4//3 . One of the rays passes through a parallel glass slab of thickness t and refractive index mu_(2)=3//2 . The path difference between the two rays due to the glass slab will be