n number of waves are produced on a string in 0.5 s. Now, the tension in the string is doubled (Assume length and radius constant), the number of waves produced in 0.5s for the same harmonic will be

n number of waves are produced on a string in 0.5 s. Now, the tention in the string is soubled (Assume length and radius constant), the number of waves produced in 0.5s for the same harmonic will be

n waves are produced on a string in 1 s . When the radius of the string is doubled and the tension is maintained the same , the number of waves produced in 1 s for the same harmonic will be

A standing wave with a number of loops is produced in a stringe fiex at both ends. In this case

A 5.5 m length of string has a mass of 0.035 kg. If the rension in the string is 77 N the speed of a wave on the string is

Stationary waves are produced in 10 m long stretched string. If the string vibrates in 5 segments and wave velocity 20 m/s then the frequency is :-

A standing wave is produced on a string on a string clamped at one end and free at the other. The length of the string

A vibrating string of certain length l under a tension T resonates with a maode corresponding to the first overtone (third harmonic) of an air column of length 75cm inside a tube closed at one end. The string also gereates 4 beats per second when excited along with a tuning fork of frequency n . now when the tension of the string is slightly increased the number of beats reduces 2 per second. assuming the velocity of sound in air ti be 340 m//s , the frequency n of the tuning fork in Hz is