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 :-

In a stationary wave along a string the strain is

The speed of transverse wave on a stretched string is

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

The separation between two consecutive crests in a transverse wave is 100 m. If wave velocity is 20 m s^(-1) , find the frequency of wave.

The separation between two consecutive crests in a transverse wave is 100 m. If wave velocity is 20 m s^(-1) , find the frequency of wave.

A string 1m long is drawn by a 300 Hz vibrator attached to its end. The string vibrates in three segments. The speed of transverse waves in the string is equal to

figure. Shows a student setting up wave wave on a long stretched string. The student's hand makes one complete up and down movement in 0.4 s and in each up and down movement the hand moves by a height of 0.3 m . The wavelength of the waves on the string is 0.8 m . The frequency of the wave is

figure. Shows a student setting up wave wave on a long stretched string. The student's hand makes one complete up and down movement in 0.4 s and in each up and down movement the hand moves by a height of 0.3 m . The wavelength of the waves on the string is 0.8 m . The amplitude of the wave is

figure. Shows a student setting up wave wave on a long stretched string. The student's hand makes one complete up and down movement in 0.4 s and in each up and down movement the hand moves by a height of 0.3 m . The wavelength of the waves on the string is 0.8 m . The wave speed is

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