A ray of light travelling in a medium of refr | vedclass

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(B) According to Snell's law,for a series of parallel interfaces,the product of the refractive index and the sine of the angle of incidence remains co

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$\sin x = \frac{5}{8}\sin 	heta $

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(B) According to Snell's law,for a series of parallel interfaces,the product of the refractive index and the sine of the angle of incidence remains constant at every interface.Let the refractive index of the initial medium be $\mu_i = \mu$ and the angle of incidence be $	heta_i = 	heta$.Let the refractive index of the final medium be $\mu_f = 1.6\mu$ and the angle of emergence be $	heta_f = x$.Applying Snell's law between the first and the last medium:$\mu_i \sin 	heta_i = \mu_f \sin 	heta_f$Substituting the given values:$\mu \sin 	heta = (1.6\mu) \sin x$Dividing both sides by $\mu$:$\sin 	heta = 1.6 \sin x$$\sin x = \frac{1}{1.6} \sin 	heta$$\sin x = \frac{10}{16} \sin 	heta = \frac{5}{8} \sin 	heta$

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