A ray of light is incident at the glass-water | vedclass

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(B) Applying Snell's Law at the glass-water interface:${\mu _g} \sin i = {\mu _w} \sin r$ ... $(1)$Applying Snell's Law at the water-air interface:${\

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$1 / \sin i$

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(B) Applying Snell's Law at the glass-water interface:${\mu _g} \sin i = {\mu _w} \sin r$ ... $(1)$Applying Snell's Law at the water-air interface:${\mu _w} \sin r = {\mu _a} \sin 90^\circ$ ... $(2)$Since the ray emerges parallel to the surface,the angle of refraction at the water-air interface is $90^\circ$. Given ${\mu _w} = 4/3$ and ${\mu _a} = 1$,we substitute equation $(2)$ into equation $(1)$:${\mu _g} \sin i = {\mu _a} \sin 90^\circ$${\mu _g} \sin i = 1 	imes 1$${\mu _g} = 1 / \sin i$

$A$ ray of light is incident at the glass-water interface at an angle $i$. It emerges finally parallel to the surface of water. Then the value of refractive index of glass,${\mu _g}$,is:

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