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Two uniform wires of a the same materi...

Two uniform wires of a the same material are vibrating under the same tension. If the first overtone of the first wire is equal to the second overtone of the second wire and radius of the first wire is twice the radius of the second wire, then the ratio of the lengths of the first wire to second wire is

A

`1/3`

B

`1/4`

C

`1/5`

D

`1/6`

Text Solution

Verified by Experts

The correct Answer is:
A
Fundamental frequency of the first wire is given as,
`f = 1/(2L_(1)) sqrt(T/m)= (1)/(2L_(1)) sqrt((T)/(pir_(1)^(2)rho)) = 1/(2L_(1)r_(1)) sqrt((T)/(pirho))`
The first overtone,
`f_(1) = 2f = (2)/(2L_(1)r_(1)) sqrt((T)/(pirho)) = 1/(L_(1)r_(1)) sqrt((T)/(pirho)) "..."(i)`
The second overtone of the second wire is given as
`f_(2) = 3/(2L_(2)r_(2)) sqrt((T)/(pirho))`
Given , `f_(1) = f_(2)`
`rArr 1/(L_(1)r_(1)) sqrt((T)/(pirho)) = 3/(2L_(2)r_(2)) sqrt((T)/(pirho))`
`:. 3L_(1)r_(1) = 2L_(2)r_(2)`
`rArr (L_(1))/(L_(2)) = 2/(3).(r_(2))/(r_(1)) = 2/(3).(r_(2))/(2r_(2))` [given, `r_(1) = 2r_(2)`]
`= 1/3`
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