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Bulk Modulus

A solid spher...

Question

A solid sphere of radius $R$ is surrounded by a liquid in a cylindrical container. A massless piston of area $A$ floats on the surface of the liquid. Find the value of bulk modulus, if the fractional decrease in the radius of the sphere is $κ$ when a mass $M$ is placed on the piston to compress the liquid. [Neglect the pressure variation between the piston and sphere and consider $κ$ as positive]

A

\frac{M g}{3 A κ}

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B

\frac{3 M g}{A κ}

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C

\frac{2 M g}{3 A κ}

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D

\frac{3 M g}{2 A κ}

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Solution

The correct option is A $\frac{M g}{3 A κ}$

When mass $M$ is placed on the piston, the pressure on the sphere increases.
Pressure increase $(Δ P) = \frac{Force}{Area} = \frac{M g}{A}$
and we know that
$\frac{- Δ V}{V} = \frac{Δ P}{B}$
where, $B =$ Bulk Modulus
and $\frac{Δ V}{V} =$ Fractional decrease in volume

$\Rightarrow \frac{- Δ V}{V} = \frac{M g}{A B}$ -----(i)

Volume of sphere $(V) = \frac{4}{3} π R^{3}$
$\Rightarrow \frac{Δ V}{V} = - 3 \frac{Δ R}{R}$
where, $\frac{Δ R}{R} =$ fractional decrement in the radius of sphere.
$\Rightarrow \frac{Δ V}{V} = - 3 κ$
[assuming $κ$ is positive]

Putting the values of $\frac{Δ V}{V}$ in eq (i)
$3 κ = \frac{M g}{A B}$
$\Rightarrow B = \frac{M g}{3 A κ}$
$∴ B = \frac{M g}{3 A κ}$

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