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An object of specific gravity rho is hun...

An object of specific gravity `rho` is hung from a thin steel wire. The fundamental frequency for transverse standing waves in the wire is 300 Hz. The object is immersed in water, so that one half of its volume is submerged . The new fundamental frequency (in Hz) is
(a) 300 `((2rho-1)/(2rho))^(1/2) `
(b) `300((2rho)/(2rho-1))^(1/2)`
(c)`300((2rho)/(2rho -1))`
(d)`300 ((2rho-1)/(2rho))`

A

`300((2rho - 1)/(2rho))^(1//2)`

B

`300((2rho)/(2rho - 1))^(1//2)`

C

`300((2rho)/(2rho - 1))`

D

`300((2rho - 1)/(2rho))`

Text Solution

Verified by Experts

The correct Answer is:
A
If `T = mg = vrhog`
`:. f = (1)/(2l) sqrt((T)/(mu)) = 300 ….(1)`
Now `T' = mg - f_(b) = vrhog - (V)/(2)g`.
`T' = vg((2rho - 1)/(2))`
`:. f' = 1/(2l)sqrt((vg)/(mu)((2rho-1))/(2))"……"(2)`
`:. (f')/(f) ((2rho - 1)/(2rho))^(1/2) , f' = 300 ((2rho - 1)/(2rho))^(1/2)`
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