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 string 1 has twice the length, twice the radius, twice the tension and twice the density of another string 2. The relation between the fundamental frequency of 1 and 2 is

Four wires of identical lengths, diameters and materials are stretched on a sonometer box. The ratio of their tension 1:4:9:16 . The ratio of their fundamental frequencies is

The length , radius , tension and density of string A are twice the same parameters of string B . Find the ratio of fundamental frequency of B to the fundamental frequency of A .

A uniform wire of length 8m and diameter 0.6mm stretched by 4mm under a certain force. If the Poisson's ratio of the material of the wrie is 0.3, calculate the change in diameter of the wire.

Two vibrating strings of the same material but lengths L and 2L have radii 2r and r respectively. They are stretched under the same tension. Both the string vibrate in their fundamental nodes, the one of length L with freuqency v_(1) and the other with frequency v_(2) . the ratio v_(1)//v_(2) is given by

Four wires of identical lengths, diameters and materials are stretched on a sonometer box. What is the ratio of the tensions in the wires such that the ratio of their fundamental frequencies is 4:3:2:1?

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 length 2.00 m is stretched to a tension of 160 N. If the fundamental frequency of vibration is 100 Hz, find its linear mass density.

A uniform wire of length 10m and diameter 0.8 mm stretched 5 mm under a certain force . If the change in diameter is 10 xx 10^(-8) m , calculate the Poissson's ratio.

The tension, length, diameter and density of a string B are double than that of another string A. Which of the following overtones of B is same as the fundamental frequency of A?