A sonometer wire is under a tension of 40 N and the length between the bridges is 50 cm. A metre long wire of the sonometer has a mass of 1.0 g. Determine its fundamental frequency.

A sonometer wire is under a tension of 40N and the length between the bridges is 60cm. A metre long wire of the sonometer has a mass of 1.0 gm. Deduce the speed of the transverse waves and the frequency of the second harmonic.

A sonometer wire is under a tension of 10 N and the length between the bridges is 2m. A metre long wire of sonometer has mass of 1.0 gm. Deduce the speed of transverse wave and the frequency of 1st hormonic.

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

The tension produced in a sonometer wire is 60 N and the length between two bridges is 40 cm. The length of wire is 1 m and the mass of the wire is 2g. The speed of transverse waves produced in the wire is

The tension in a sonometer wire is increased to nine times. Then the fundamental frequency of the wire is

A sonometer wire is divided in many segments using bridges. If fundamental natural frequencies of the segments are n_(1), n_(2), n_(3)….. then the fundamental natural frequency of entire sonometer wire will be (if the divisons were not made):

In a sonometer wire, the tension is maintained by suspending a 50.7 kg mass from the free end of the wire. The suspended mass has a volume of 0.0075 m 3. The fundamental frequency of the wire is 260 Hz . If the suspended mass is completely submerged in water, the fundamental frequency will become (take g = 10 ms^(-2) ) [

A sonometer wire vibrating in its fundamental mode, is in unison with a tuning fork when the length of the wire between the bridges is 25 cm. By keeping the same tension , the length between the bridges is increased to 75 cm. The tuning fork can still be in resonance with the vibrating wire , provided the wire vibrates with

A sonometer wire has a length of 114 cm between its two fixed ends. Where should the two briges be places so as todivide the wire into three segments, whos fundamental frequencies are in the ratio 1:3:4?