(C) The lateral displacement $d$ produced by a glass slab of thickness $t$ is given by the formula:$d = \frac{t \sin(i - r)}{\cos r}$For small angles,

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$it\left( {1 - \frac{r}{i}} \right)$

(C) The lateral displacement $d$ produced by a glass slab of thickness $t$ is given by the formula:$d = \frac{t \sin(i - r)}{\cos r}$For small angles,we can use the approximations $\sin(i - r) \approx i - r$ and $\cos r \approx 1$.Substituting these into the formula,we get:$d \approx t(i - r)$To express this in the form of the given options,we factor out $i$:$d = ti \left( 1 - \frac{r}{i} \right)$Thus,the correct option is $C$.

Class 12 Physics Ray Optics and Optical Instruments Refraction through Plane Surface and Glass Slab

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$A$ ray of light is incident on a thick slab of glass of thickness $t$ as shown in the figure. The emergent ray is parallel to the incident ray but displaced sideways by a distance $d$. If the angles are small,then $d$ is

A
$t\left( {1 - \frac{i}{r}} \right)$
B
$rt\left( {1 - \frac{i}{r}} \right)$
C
$it\left( {1 - \frac{r}{i}} \right)$
D
$t\left( {1 - \frac{r}{i}} \right)$

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Ray Optics and Optical Instruments

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Refraction through Plane Surface and Glass Slab

If the velocity of light in vacuum is $3 \times 10^{8} \text{ m/s}$,the time taken (in nanoseconds) to travel through a glass plate of thickness $10 \text{ cm}$ and refractive index $1.5$ is:

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The time required for light to pass through a glass slab of $2 \ mm$ thickness is $({\mu _{glass}} = 1.5)$.

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Time taken by the sunlight to pass through a slab of $4 \ cm$ and refractive index $1.5$ is . . . . . . $s$.

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$A$ biconvex lens forms a real image of an object placed perpendicular to its principal axis. Suppose the radii of curvature of the lens tend to infinity. Then the image would

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$A$ rectangular tank of depth $8 \, m$ is full of water $(\mu = 4/3)$. The bottom is seen at an apparent depth of:

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$A$ ray of light is incident on a thick slab of glass of thickness $t$ as shown in the figure. The emergent ray is parallel to the incident ray but displaced sideways by a distance $d$. If the angles are small,then $d$ is

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If the velocity of light in vacuum is $3 \times 10^{8} \text{ m/s}$,the time taken (in nanoseconds) to travel through a glass plate of thickness $10 \text{ cm}$ and refractive index $1.5$ is:

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Time taken by the sunlight to pass through a slab of $4 \ cm$ and refractive index $1.5$ is . . . . . . $s$.

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