Monochromatic light of wavelength `6000 overset@ (A)` travels through a glass of refractive index `frac(3)(2)`. The distance travelled by the light in 1 picosecond is

A monochromatic light of wavelength 4800 A travelling in air is incident on a glass slab of refractive index 1.5, its wavelenght in glass slab is

The distance travelled by light in a medium of R.I. 3/2 in a Nano second is

A beam of menochromatic blue light of wavelength 4200 Ål in air travels in water of refractive index 4/3. its wavelength in water will be

A light of wavelength 6500 A in air is passed through water of refractive index 1.3. The percentage change in wavelength will be nearly

Light passes through glass of refractive index 1.5 . What is the time required for light to travel 4 xx 10^(8) m in glass ?

True/false: The refractive index of the medium depends on the wavelength of light

A light of wavelength 5000 A. is incident on a water surface of refractive index (4/3) . Find the wavelength and frequency of light in water if its frequency in air is 6 x 10^14 Hz .

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

Green light of wavelength 5460Å is incident on an air glass interface. If the refractive index of glass is 1.5, the wavelength of light in glass would be (C=3 xx 10^(8) ms^(-1)) n

A light of wavelength 6000 A travels from rarer medium to denser medium of refractive index 1.5, If its frequncy in rarer medium is 5 xx 10^(14) Hz, then its frequency in denser medium will be