A sonometer wire of length 1.5 m is made...

A sonometer wire of length 1.5 m is made of steel. The tension in it produces an elastic strain of 1 %. What is the fundamental frequency of steel if density and elasticity of steel are `7.7 xx 10^(3) kg//m^(3) and 2.2 xx 10^(11)N//m^(2)` respectively?

178.2Hz

200.5Hz

770Hz

188.5Hz

Text Solution

Verified by Experts

The correct Answer is:

Fundamental frequency of vibration of sonometer wire is `f_(0)=(1)/(2L)sqrt((T)/(mu))`
where L is the length of the wire, T is the tension in the wire and is the mass per length of the wire
As `mu=pA`
Where p is the density of the material of the wire and A is the area of cross-section of the wire.
`therefore` `f_(0)=(1)/(2L)sqrt((T)/(pA))` But we have `Y=(Stress)/(Stra i n)=(TL)/(ADeltaL)`
The tension in the wire is due to elasticity of wire
`therefore` `T=YA[(DeltaL)/(L)],` Hence, `f_(0)=(1)/(2L)sqrt((Y Delta L)/(pL))`
`Y=2.2xx10^(11)N//m^(2),p=7.7xx10^(3) kg//m^(3),(DeltaL)/(L)=0.01,L=1.5m`
Substituting the given values, we get : `f_(0)=(1)/(2xx1.5)sqrt((2.2xx10^(11)xx0.01)/(7.7xx10^(3)))=(10^(3))/(3)sqrt((2)/(7))Hz=178.2 Hz`

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