Two stretched wires A and B of same material vibrate independently. If the tension, length and radius of wire B is half those of wire A, then ratio of fundamental frequency of vibration of A and B is

Two resistance wire "A" and "B" of same material are connected in parallel to the mains.The length and diameter of wire "A" are double those of wire "B" . The amounts of heat generated "Q_(A) and "Q_(B)" in "A" and "B" will be-

Two metallic wires A and B (of the same material) are connected in parallel. Wire A has length l and radius r , wire B has a length 3 l and radius 3 r . Compute the ratio of the total resistance of parallel combination and the resistance of wire A .

Fundamental frequency of a sonometer wire is n. If the length and diameter of the wire are doubled keeping the tension same, then the new fundamental frequency is

Two string of same material are stretched to same tension between rigid supports. If diameter of second wire is double than that of first wire and fundamental frequency of first is equal to third harmonic of second wire, find ratio of their lengths.

For a constant vibrating length, density of the material and tension in the string the fundamental frequency of the vibrating stringis

Two stretched strings of same material are vibrating under the force vibration having sae tension in fundamental mode. The ratio of their frequencies is 1:4 and ratio of the length of the vibrating segments is 1:8 the, the ratio of the radii of the strings is

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.

Tension applied to a wire of length 1m and its mass 1g, if it is to vibrate with the fundamental frequency of 50 Hz, will be