A streched wire resonates with a given tuning fork forming standing waves with five antinodes between the two bridges when a mass of 9 Kg is suspended from the wire. When this mass is replaced by a mass 'M' the wire resonates with the same tuning fork for three antinodes for the same positions of the bridges the value of M is

A sonometer wire resonates with a given tuning fork forming a standing wave with five antinodes between the two bridges when a mass of 9 kg is suspended from the wire. When this mass is replaced by a mass 'M' kg, the wire resonates with the same tuning fork forming three antinodes for the same positions of the bridges. Find the value of M .

A sonometer wire resonates with a given tuning fork forming standing waves with five antitodes between the two bridges when a mass of 9kg is suspended from the wire. when this same tuning fork forming three antitodes for the same positions of the bridges. the value of M is

A sonometer wire resonates with a given tuning fork forming 5 antinodes when a mass of 9 kg is suspended from the wire . When this resonates with the same tuning fork forming three antinodes for the same positions of the bridges . The value of M is

A sonometer wire resonates with a tuning fork. If the length of the wire between the bridges is made twice even then it can resonate with the same tuning fork. How ?

A metal wire of length L is suspended vertically from a rigid support. When a bob of mass M is attached to the lower end of wire, the elongation of the wire is l:

A stretched string is in resonance with a tuning fork of frequency 250 Hz. If the distance between two consecutive antinodes on the string is 5, then the velocity of the progressive wave in the string is

A wire is under a tension of 32N and length between the two bridges in 1m. If the length of the sample wire is 10m and its mass is 2 g, then the fundamental frequency of the wire will be