Optics 4 Question 20

21. A prism of refracting angle $30^{\circ}$ is coated with a thin film of transparent material of refractive index 2.2 on face $A C$ of the prism. A light of wavelength $6600 \AA$ is incident on face $A B$ such that angle of incidence is $60^{\circ}$. Find

$(2003,4$ M)

(a) the angle of emergence and

(b) the minimum value of thickness of the coated film on the face $A C$ for which the light emerging from the face has maximum intensity. (Given refractive index of the material of the prism is $\sqrt{3}$ )

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Answer:

Correct Answer: 21. (a) zero

(b) $1500 \AA$

Solution:

  1. (a) $\sin i _1=\mu \sin r _1$

$$ \begin{array}{lll} \text { or } & & \sin 60^{\circ}=\sqrt{3} \sin r _1 \\ \therefore & \sin r _1 & =\frac{1}{2} \text { or } r _1=30^{\circ} \\ & \text { Now, } & r _1+r _2=A \\ \therefore & r _2 & =A-r _1=30^{\circ}-30^{\circ}=0^{\circ} \end{array} $$

Therefore, ray of light falls normally on the face $A C$ and angle of emergence $i _2=0^{\circ}$.

(b) Multiple reflections occur between surface of film. Intensity will be maximum if constructive interference takes place in the transmitted wave.

For maximum thickness

$$ \begin{aligned} \Delta x & =2 \mu t=\lambda \quad \quad(t=\text { thickness }) \\ \therefore \quad t & =\frac{\lambda}{2 \mu}=\frac{6600}{2 \times 2.2}=1500 \AA \end{aligned} $$



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