The lens governing the behavior of the rays namely rectilinear propagation laws of reflection and refraction can be summarised in one fundamental law known as Fermat's principle. According to this principle a ray of light travels from one point to another such that the time taken is at a stationary value (maximum or minimum).
if c is the velocity of light in a vacuum the velocity in a medium of refractive index `mu` is `(c)/(mu)` hence time taken to travel a distance `l` is `(mul)/(c)` if the light passes through a number of media, the total time taken is `((1)/(c))summul` or `(1)/(c)intmudl` if refractive index varies continuously. Now `summul` is the total path, so that fermat's principle states that the path of a ray is such that the optical path in at a stationary value. this principle is obviously in agreement with the fact that the ray are straight lines i a homogenous isotropic medium. it is found that it also agrees with the classical laws of reflection and refraction.
Q.
The optical length followed by ray from point A to B given that laws of reflection are obeyed as shown in figure is

The lens governing the behavior of the rays namely rectilinear propagation laws of reflection and refraction can be summarised in one fundamental law known as Fermat's principle. According to this principle a ray of light travels from one point to another such that the time taken is at a stationary value (maximum or minimum). if c is the velocity of light in a vacuum the velocity in a medium of refractive index mu is (c)/(mu) hence time taken to travel a distance l is (mul)/(c) if the light passes through a number of media, the total time taken is ((1)/(c))summul or (1)/(c)intmudl if refractive index varies continuously. Now summul is the total path, so that fermat's principle states that the path of a ray is such that the optical path in at a stationary value. this principle is obviously in agreement with the fact that the ray are straight lines i a homogenous isotropic medium. it is found that it also agrees with the classical laws of reflection and refraction. Q. The optical path length followed by ray from point A to B given that laws of refraction are obeyed as shown in figure.

The lens governing the behavior of the rays namely rectilinear propagation laws of reflection and refraction can be summarised in one fundamental law known as Fermat's principle. According to this principle a ray of light travels from one point to another such that the time taken is at a stationary value (maximum or minimum). if c is the velocity of light in a vacuum the velocity in a medium of refractive index mu is (c)/(mu) hence time taken to travel a distance l is (mul)/(c) if the light passes through a number of media, the total time taken is ((1)/(c))summul or (1)/(c)intmudl if refractive index varies continuously. Now summul is the total path, so that fermat's principle states that the path of a ray is such that the optical path in at a stationary value. this principle is obviously in agreement with the fact that the ray are straight lines i a homogenous isotropic medium. it is found that it also agrees with the classical laws of reflection and refraction. Q. If refractive index of a slab varies as mu=1+x^(2) where x is measured from one end then optical path length of a slab of thickness 1 m is

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

The ratio between velocity of light in vacuum to velocity of light in air is called refractive index. ____

Ray of light bends as light travels from one medium to another.

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

The phenomenon in which when a ray of light travels from one medium to another, bends at the boundary between the two medium

The ratio between the velocity of light in a given optical medium to the velocity of light in vacuum is called refractive index.

A ray of light after reflection from a mirror is known as