A wire under tension vibrates with a frequency of 450Hz. What would be the fundamental frequency, if the wire were half as long, twice as thick and under one fourth tension ?

A wire under a tension vibrates with fundamental frequency of 256 Hz . What should be the fundamental frequency of the wire if its length is half, thickness twice and one - fourth of the tension ?

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

A wire under tension vibrates with a fundamental frequency of 600 Hz. If the length of the wire is doubled, the radius is halved and the wire is made to vibrate under one-ninth the tension. Then, the fundamental frequency will became

In law of tension, the fundamental frequency of vibrating string is

If the tension of sonometer’s wire increases four times then the fundamental frequency of the wire will increase by

A string vibrating with a fundamental frequency of 8 Hz has tension T_(1) . This string vibrates with a fundamental frequency of 15 Hz when the tension is T_(2) . Find the fundamental frequency of the string when its tension is T_(1) + T_(2) .

The fundamental frequency of vibration of a wire fo certain length is 200 Hz. What will be the fundamental frequency of vibration, if the tension is made double and length of the wire is also doubled ?

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

A stretched sonometer wire resonates at a frequency of 350 Hz and at the next higher frequency of 420 Hz. The fundamental frequency of this wire is