A parallel beam of light falls from vacu...

A parallel beam of light falls from vacuum on a surface enclosing a medium with refractive3 index `n` (Fig.) Find the shape of that surface, `x(r )` if the beam is brought into focus at the point `F` at a distance `f` from the crest `O`. What is the maximum radius of a beam that can still be focussed ?

Similar Questions

Explore conceptually related problems

A parallel beam of light falls on a solid tranparent sphere. Q. For what value of refractive index mu , the thin beam can be focussed at centre of sphere.

A narrow parallel beam of light falls on a glass sphere of radius R and refractive index mu at normal incidence. The distance of the image from the outer edge is given by-

A parallel beam of light falls on a solid tranparent sphere. Q. If however thin beam is focussed at A, then find the refractive index of the sphere,

A beam of monochromatic light is refracted from vacuum into a medium of refractive index 1.5. The wavelenght of refracted light will be

A beam of monochromatic light is refracted from vacuum into a medium of refractive index 1.5.The wavelength of refracted light will be

A beam of monochromatic light is refracted from vacuum into a medium of refractive index 1.5 The wavelength of refracted light will be

A beam of monochromatic light is refacted from vacuum into a medium of refracticve index 1.5 The wavelength of refracted light will be

Similar Questions

Recommended Questions