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A steel wire of length 50sqrt(3) cm is c...

A steel wire of length `50sqrt(3) cm` is connected to an aluminium wire of length `60 cm` and stretched between two fixed supports. The tension produced is `104 N`, if the cross section area of each wire is `1mm^(2)`. If a transverse wave is set up in the wire, find the lowest frequency for which standing waves with node at the joint are produced . (density of aluminimum `= 2.6 gm//cm^(3)` and density of steel `= 7.8 gm//cm^(3)`).

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`"Steel" " " "Aluminium"`
`T = 104 `
`sigma_(1) = 7 . 8 gm//cm^(3) sigma _(2) = 2.6 gm//cm^(3)`
`A_(1) = A_(2) = 1 m m ^(2)`
`V_(1) sqrt((T)/(sigma_(1) A_(1)))=sqrt((104)/((7.8xx 10^(-3))/(10^(-6))xx 1xx 10^(-6)))`
`V_(1) = ((200)/(sqrt(3))) m//sec . `
`v_(2) sqrt((T)/(sigma_(2)A_(2))) = sqrt((104)/(2.6 xx 10^(-3)))=2 xx 10^(2) m//sec ` .
for lowest freq.
`f_(1)=f_(2)`
`(n_(1)V_(1))/(2L_(1)) = (n_(2)V_(2))/(2L_(2))`
`(n_(1) xx 200)/(2 xx sqrt(3) xx 50 sqrt(3)) = (n_(2) xx 200)/(2 xx 60 xx 1)`
`rArr [(n_(1))/(n_(2)) = ((5)/(2))]`
So lowest freq.
`f_(2) = (n_(2) V)/(2L) = (2xx 2000)/(2 xx 0 . 6) = (1000)/(3) Hz `
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