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 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 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 uniform wire of length L , diameter D and density rho is stretched under a tension T . The correct relation between its fundamental frequency f , the length L and the diameter D is

A wire of length l and cross-sectional are A is suspended at one of its ends from a ceiling. What will be its strain energy due to its own weight, if the density and Young's modulus of the material of the wire be d and Y?

A wire of radius r stretched without tension along a straight line is tightly fixed at A and B. fig. What is the tension in the wire when it is pulled in the shape ACB? Assume Uoung's modulus of material of the wire to by Y.

A uniform copper wire of length L , mass M and density rho is under a tension T . If the speed of the transverse wave along the wire is v, then area of cross section (A) of the wire is

Length of a string of density rho and Young's modulus Y under tension is increased by (1)/(n) times of its original length If the velocity of transverse and longitudinal vibration of the string is same, find the value of such velocity.

The mass and length of a wire are M and L respectively. The density of the material of the wire is d. On applying the force F on the wire, the increase in length is l, then the Young's modulus of the material of the wire will be

A mass 'm' kg is whirled in a verticle plane by tying it at the end of a flexible wire of length 'L' and area of cross-section 'A' such that it just completes the verticle circle. When the mass is a its lowest positon, the strain produced in the wire is (Young's modulus of the wire is 'Y' )

A uniform ring of radius R and made up of a wire of cross - sectional radius r is rotated about its axis with a frequency f . If density of the wire is rho and young's modulus is Y . Find the fractional change in radius of the ring .