Two identical wires are stretched by the same tension of `101 N` and each emits a note of frequency `202 Hz`. If the tension in one wire is increased by `1N`, then the beat frequency is

Two identical wires are stretched by the same tension of 100 N and each emits a note of frequency 200 H_(Z) . If the tension in one wire is increased by 1 N , then the beat frequency is

Two identical wires are streched by the same tension of 100 N and each emits a note of frequency 200 H_(Z) . If the tension in one wire is increased by 1 N , then the beat frequency is

Two identical wires are put under same tension and have same frequency of vibration. When tension in one of the wire is increased by 2%, then 6 beats/sec can be heard. What will be the original frequency of the wires ?

Two identical wires have the same fundamental frequency of 400 Hz . when kept under the same tension. If the tension in one wire is increased by 2% the number of beats produced will be

Two identical wires have the same fundamental frequency of 400 Hz . when kept under the same tension. If the tension in one wire is increased by 2% the number of beats produced will be

Two identical wires have the same fundamental frequency of 400 Hz . when kept under the same tension. If the tension in one wire is increased by 2% the number of beats produced will be

A sonometer wire is in unison with a tuning fork of frequency 150 Hz. If the tension in the wire is increased by 1%, how many beats per second will be heard ?

Two identical wires have a fundamental frequency of 100Hz, when kept under the same tension . If the tension of one of the wires is increased by 21% , the number of beats produced is

The frequency of a stretched uniform wire under tension is in resonance with the fundamental frequency of a closed tube. If the tension in the wire is increased by 8 N , it is in resonance with the first overtone of the closed tube. The initial tension in the wire is