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A uniform cylinder of length (L) and mas...

A uniform cylinder of length (L) and mass (M) having cross sectional area (A) is suspended, with its length vertical, from a fixed point by a massless spring, such that it is half - submerged in a liquid of density (rho) at equilibrium position. When the cylinder is given a small downward push and released it starts oscillating vertically with small amplitude. If the force constant of the spring is (k), the prequency of oscillation of the cylindcer is.

A

`(1)/(2pi) ((k-Adg)/(M))^(1//2)`

B

`(1)/(2pi) ((k+Adg)/(M))^(1//2)`

C

`(1)/(2pi) ((k+dgL)/(M))^(1//2)`

D

`(1)/(2pi) ((k+Adg)/(Adg))^(1//2)`

Text Solution

Verified by Experts

The correct Answer is:
B
Equilibrium : `Mg = k omega + ((AL)/(2))dg`
Let the cylinder be pushed down by .x.
`k(x_(0) + x) + (A ((L)/(2) + x)) dg - Mg = Ma`
`a = ((K + Adg))/(M) x = omega^(2)x`
`rArr f = (1)/(2pi) sqrt((k+Adg)/(M))`
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