(B) The total depth of the vessel is $2d \ cm$.Since it is half-filled with two different liquids,the thickness of each liquid layer is $d_1 = d$ and

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$d \left( \frac{1}{\mu_1} + \frac{1}{\mu_2} \right)$

(B) The total depth of the vessel is $2d \ cm$.Since it is half-filled with two different liquids,the thickness of each liquid layer is $d_1 = d$ and $d_2 = d$.The apparent depth $h'$ of a system of multiple layers of liquids is given by the formula $h' = \sum \frac{d_i}{\mu_i}$.Substituting the given values: $h' = \frac{d_1}{\mu_1} + \frac{d_2}{\mu_2}$.$h' = \frac{d}{\mu_1} + \frac{d}{\mu_2} = d \left( \frac{1}{\mu_1} + \frac{1}{\mu_2} \right)$.

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

Medium

$A$ vessel of depth $2d \ cm$ is half filled with a liquid of refractive index $\mu_1$ and the upper half with a liquid of refractive index $\mu_2$. The apparent depth of the vessel seen perpendicularly is

A
$d \left( \frac{\mu_1 \mu_2}{\mu_1 + \mu_2} \right)$
B
$d \left( \frac{1}{\mu_1} + \frac{1}{\mu_2} \right)$
C
$2d \left( \frac{1}{\mu_1} + \frac{1}{\mu_2} \right)$
D
$2d \left( \frac{1}{\mu_1 \mu_2} \right)$

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Ray Optics and Optical Instruments

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Refraction through Plane Surface and Glass Slab

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$A$ vessel of depth $2d \ cm$ is half filled with a liquid of refractive index $\mu_1$ and the upper half with a liquid of refractive index $\mu_2$. The apparent depth of the vessel seen perpendicularly is

Similar Questions

Three immiscible liquids of densities $d_1 > d_2 > d_3$ and refractive indices $\mu_1 > \mu_2 > \mu_3$ are put in a beaker. The height of each liquid column is $\frac{h}{3}$. $A$ dot is made at the bottom of the beaker. For near normal vision,find the apparent depth of the dot.

What is the lateral shift of a ray refracted through a parallel-sided glass slab of thickness $h$ in terms of the angle of incidence $i$ and angle of refraction $r$,if the glass slab is placed in air medium?

When the same monochromatic ray of light travels through a glass slab and through water,the number of waves in a glass slab of thickness $5 \ cm$ is the same as in a water column of height $6 \ cm$. If the refractive index of glass is $1.56$,then the refractive index of water is:

$A$ coin is placed at the bottom of an empty beaker and is focused by a microscope. When water is poured into the beaker to a height of $10 \, cm$,how much must the microscope be moved to focus it again?

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