A wire of density `9000 kg//m^(3)` is stretched between two clamps `100 cm` apart while subjected to an extension od `0.05 cm`. What is the lowest frequency of transverse vibrations in the wire , assuming Young's modulus of the material to be `9 xx 10^(10) N//m^(2)`?

A wire of density 9 gm//cm^(3) is stretched between two clamps 1.00 m aprt while subjected to an extension of 0.05 cm . The lowest frequency of transverse vibration in the wire is

A wire of density 9gm//cm^(3) is streched between two clamps 1.00m apart while subjected to an extension of 0.05cm. The lowest freqyency of transverse viberation in the wire is (Assume Yong's modulus Y=9xx10^(10)N//m^(2) .

A wire of density 9 xx 10^(3) kg//m^(3) is stretched between two clamps 1 m apart and is subjected to an extension of 4.9 xx 10^(-4) m . The lowest frequency of transverse vibration in the wire is (Y = 9 xx 10^(10) N//m^(2))

A uniform wire of density rho is stretched by l_(!) under its propotional limit whose original slength is L. What is lowest frequency of transverse viberation set up in the wire assuming Young's modulus of the material to be Y?

A wire of density 9xx10^3 kg//m^3 is stretched between two clamps 1 m apart and is stretched to an extension of 4.9xx10^-4 metre.Young's modulus of material is 9xx10^10 N//m^2 .Then

A wire of density 9000kgm^(-3) is stretched two clamps 2 m apart and its length increase by 0.05 cm. Calculate the frequecny of the fundamental trasverse vibration of the srting . ("y of the material of wire "9xx10^(10)N//m^(2) ) hint: Calculate tension of the wire from formula, young's modulus =("stress")/("strain")

(a) A wire 4 m long and 0.3 mm, calculate the potential energy stored in the wire. Young's modulus for the material of wire is 2.0xx10^(11) N//m^(2) .

The speed of longitudinal wave is 100 times, then the speed of transverse wave in a brass wire. What is the stress in wire ? TheYoung's modulus of brass Is 1.0 xx 10^(11)N//m^(2)

When a wire 2 m long and 0.05 cm^(2) in cross-section is stretched by a mass of 2 kg, it increases in length by 0.04 mm. Young's modulus of the material of the wire is (g=10ms^(-2))