A wire fixed at both ends is 1.0 m long and has a mass of 36g. One of its oscillation frequencies is `250 Hz` and the next higher one is 300 Hz.
(a) Which harmonics do these frequencies represent?
(b) What is the tension in the wire?

A piano wire has a length of 81 cm and a mass of 2.0 g. If its fundamental frequency is to be 394 Hz, it tension must be

One of the harmonic frequencies for a particular string under tension is 310 Hz. The next higher harmonic frequency is 400 Hz. What harmonic frequency is next higher after the hannonc frequency 850 Hz?

A violin string 30.0 cm long with linear density 0.650 g/m is placed near a loudspeaker that is fed by an audio oscillator of variable frequency. It is found that the string is set into oscillation only at the frequencies 1040 and 1560 Hz as the frequency of the oscillator is varied over the range 600-1600 Hz. What is the tension in the string?

At what tension a wire of length 1 m and mass 2 gram will be in resonance with frequency of 350 Hz .

A wire of 1 m long and weighing 2 g will be in resonance with a frequency of 300Hz . Find tension on stretching of wire.

A wire having a linear density of 0.05 kg/m is stretched between two rigid supports. The tension in the wire is 4.5xx10^7 dyne . If the observed that the wire resonates at a frequency of 420 Hz and the next higher frequency at which the wire resonates is 490 Hz, then the length of the wire would be

A wire whose linear density is 5 xx 10^(3 )kg//m is stretched between two points with a tension 450 N The wire resonates at a frequency of 420 Hz. The next higher frequency at which the same wire resonates is 490 Hz. What is the length of the wire?