Monochromatic light of wavelength 589 nm is incident from air on a water surface. What are the wavelength, frequency and speed of (a) reflected and (b) refracted light? (Take refractive index of water as 1.33)
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Hence, the wavelength, speed, and frequency of the reflected ray will be the same as that of the incident ray. Hence, the speed, frequency, and wavelength of the reflected light are 3 × 108 m/s, 5.09 ×1014 Hz, and 589 nm respectively.
Monochromatic light of wavelength 589nm is incident from air on a water surface. If μ for water is 1.33, find the wavelength, frequency and speed of the refracted light.
wavelength λ=589nm=589×10
−9
m
Speed of light in air, c=3×10
8
m/s
Refractive index of water, μ = 1.33
The frequency of light does not depend on the property of the medium in which it is travelling. Hence, the frequency of the refracted ray in water will be equal to the frequency of the incident or reflected light in air.
So Refracted frequency, ν=
λ
c
=5.09×10
14
Hz
Speed of light in water is related to the refractive index of water as:
v=
μ
c
=2.26×10
8
m/s.Wavelength of light in water is given by the relationλ
1
=
ν
v
=444×10
−9
m=444nm
Monochromatic light of wavelength 589nm is incident from air on a water surface. If μ for water is 1.33, find the wavelength, frequency and speed of the refracted light.
wavelength λ=589nm=589×10
−9
m
Speed of light in air, c=3×10
8
m/s
Refractive index of water, μ = 1.33
The frequency of light does not depend on the property of the medium in which it is travelling. Hence, the frequency of the refracted ray in water will be equal to the frequency of the incident or reflected light in air.
So Refracted frequency, ν=
λ
c
=5.09×10
14
Hz
Speed of light in water is related to the refractive index of water as:
v=
μ
c
=2.26×10
8
m/s.Wavelength of light in water is given by the relationλ
1
=
ν
v
=444×10
−9
m=444nm
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