The correct curve between refractive index `mu` and wavelength `lambda` will be

The correct relation between the refractive index ( mu ) of the material of prism (A) and angle of minimum deviation ( delta ) is

A glass prism is immersed in a hypothetical liquid. The curves showing the refractive index n as a function of wavelength lambda for glass and liquid are as shown in Figs. When a ray of white light is incident on the prism parallel to the base

For small angled prisms, (whose refracting angle (A) is less than 5"), the correct relation between refractive index ( mu ) of material of prism and angle of deviation is

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

The angles of incidence and refraction of a monochromatic ray of light of wavelength lamda at an air-glass interface are i and r, respectively. A parallel beam of light with a small spread delta lamda in wavelength about a mean wavelength lamda is refracted at the same air-glass interface. The refractive index mu of glass depends on the wavelength lamda as mu(lamda) = a + b//lamda2 where a and b are constants. Then the angular spread in the angle of refraction of the beam 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

How does the refractive index of a medium depend on the wavelength of light used ?

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 ?

What is the relation between the refractive indices mu,mu_(1) and mu_(2) if the behaviour of light rays is shown in Figure.

Electromagnetic radiation of frequency n , wavelength lambda , travelling with velocity v in air, enters a glass slab of refractive index mu . The frequency, wavelength and velocity of light in the glass slab will be respectively