A wire of length L, density `rho` and young's modulus Y produces an elongation 1 in wire by applying load, then frequency of wire is

Consider a wire of length L, density rho and Young's modulus Y . If l is elongation in wire, then frequency of wire is

A wire of length L and density rho and Young's modulus Y is hanging from a support. Find the elongation in the length of wire at which wire will break:

A wire of length L and density rho and Young's modulus U is hanging from a support. Find elongation in the length of wire at which wire will break .

Young's modulus of a wire depends on

A wire is length 2l , radius r and Young's modulus Y pulled perpendicular to its mid point by a distance y . Fina the tesnion in the wire

Two wires of different materials each of length l and cross sectional area 'A' are joined in series to form a composite wire. If their young's moduli are Y and 2Y, the total elongation produced by applying a force F to stretch the composite wire will be

A wire of natural length l, young's modulus Y and ares of cross-section A is extended by x. Then, the energy stored in the wire is given by

A metal wire of length L, area of cross-section A and Young's modulus Y behaves as a spring of spring constant k.

A point mass m is suspended at the end of a massless wire of length l and cross section. If Y is the Young's modulus for the wire, obtain the frequency of oscillation for the simple harmonic motion along the vertical line.