Monochromatic light is refracted from air into the glass of refractive index p. The ratio of the wavelength of incident and refracted waves is:

Monochromatic light is refracted from air into the glass of refractive index mu . The ratio of the wavelength of incident and refracted waves is

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 o monochromatic light of wavelength lambda is reflected from air into water to refractive index 4/3. The wavelength of light beam inside water will be

Unpolarized light is incident on a plane glass surface having refractive index . The angle of incidence at which reflected and refracted rays would become perpendicular to each other is :

A ray of light passes from vaccum into a medium of refractive index n. If the angle of incidence is twice the angle of refraction, then the angle of incidence is

Light of wavelength 4500Å in vacuum enters into a glass block of refractive index 1.5. What is the wavelength of light in the glass block?

A ray EF of monochromatic light is incident on the refracting surface AB of a regular glass prism ( refractive index =1.5 ) at angle of incidence i=55^(@) (Figure). If it emerges the adjacent face AC, calculate the angle of emergence .e..

A ray of light is incident on the surface of a glass plate of refractive index sqrt(3) at the polarising angle . The angle of incidence and angle of refraction of the ray is

A monochromatic beam of light of wavelength lambda and frequency v goes from vacum to a medium of refractive index n. How do the wavelength and frequency of light change ?

A ray of light incident from air on a glass plate of refractive index n is partly reflected and partly refracted at the two surfaces of the glass. The displacement y_(0) in the figure is