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Question
A plane wavefront propagating in a medium of refractive index 'μ1' is incident on a plane surface making the angle of incidence 'i' as shown in the figure. It enters into a medium of refractive index 'μ2' (μ2 > μ1). Use Huygens' construction of secondary wavelets to trace the propagation of the refracted wavefront. Hence verify Snell's law of refraction.
Solution
Let the plane wavefront AB be incident on the plane surface XY at an angle of incidence i.
Then, from the figure, we have
∠BAA' = ∠i
According to Huygens's principle, every point on AB is a source of secondary wavelets.
Let the secondary wavelet from B strike XY at A' in t seconds. Then,
BA' = c1t .....(i)
Here, c1 is the velocity of light in the rarer medium.
The secondary wavelet from A travels in the denser medium and covers a distance AB'.
Then,
AB' = c2t .....(ii)
Thus, A'B' will be the secondary wavefront after t seconds. This would later advance to rays 1', 2', and 3', which are the corresponding refracted rays perpendicular to A'B'.
We can also show that the secondary wavelets starting from any point D on the incident wavefront AB after refraction at P will reach point D' on A'B' at the same time in which the secondary wavelets from B reach A'. Therefore, A'B' is the true refracted wavefront with the angle of refraction r.
So, we have
∠A A'B' = ∠r
Now in ΔA A'B'
`sini = (BA^')/(A A^') = (c_1t)/(A A^')`
In ΔAA'B
`sinr = (BA^')/(A A^') = (c_2t)/(A A^')`
`therefore (sini)/(sinr) = (c"/"mu_1)/(c"/"mu_2) = mu_2/mu_1`
⇒ `mu_1 sini = mu_2 sinr`
Hence, snell's law is verified.
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