A transverse harmonic disturbance is produced in a string. The maximum transverse velocity is `3m//s` and maximum transverse acceleration is `9om//s`. If the wave velocity is `20 m//s` then find the waveform.

A transverse wave travelling in a string produce maximum transverse velocity of 3 m//s and maximum transverse acceleration 90 m//s^(2) in a particle. If the velocity of wave in the string is 20 m//s . Datermine the equation of the wave ?

A transverse wave travelling in a string produce maximum transverse velocity of 3 m//s and maximum transverse acceleration 90 m//s^(2) in a particle. If the velocity of wave in the string is 20 m//s . Datermine the equation of the wave ?

The maximum velocity for particle in SHM is 0.16 m/s and maximum acceleration is 0.64 m//s^(2) . The amplitude is

A harmonically moving transverse wave on a string has a maximum particle velocity and acceleration of 3 m/s and 90 m//s^(2) respectively. Velocity of the wave is 20 m//s . Find the waveform.

A harmonically moving transverse wave on a string has a maximum particle velocity and acceleration of 3 m/s and 90 m//s^(2) respectively. Velocity of the wave is 20 m//s . Find the waveform.

A harmonically moving transverse wave on a string has a maximum particle velocity and acceleration of 3 m/s and 90 m//s^(2) respectively. Velocity of the wave is 20 m//s . Find the waveform.

A transverse mechanical harmonic wave is travellling on a string. Maximum velocity and maximum acceleration of a particle on the string are 3m//s and 90 m//s^(2) , respectively. If the wave is travelling with a speed of 20 m//s on the string, write wave function describing the wave. \

A transverse mechanical harmonic wave is travellling on a string. Maximum velocity and maximum acceleration of a particle on the string are 3m//s and 90 m//s^(2) , respectively. If the wave is travelling with a speed of 20 m//s on the string, write wave function describing the 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.

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.