A sine wave has an amplitude A and wavelength `lambda`. Let V be the wave velocity and v be the maximum velocity of a particle in the medium. Then

Velocity of a particle in stationary wave is maximum at

Wave velocity & particle velocity from wave equation

A transverse sinusoidal wave of amplitude A, wavelength lamda and frequency f is travelling along a stretch string. The maximum speed of any point on the string is (v)/(10) , where, V is the velocity of wave propagation. If A=10^(-3)m, and V=10ms^(-1) , then lamda and f are given by

When a sound wave of wavelength lamda is propagating in a medium, the maximum velocity of the particle is equal to the velocity. The ampilitude of wave is

S_(1) : The particles speed can never be equal to the wave speed in sine wave if the amplitude is less then wavelength divided by 2pi . S_(2) : In transverse wave of amplitude A, the maximum particle velocity is four times its wave velocity. Then, the wave length of the wave is piA S_(3) : the phase difference between two points separated by 1m in a wave of frequency 120 Hz is 90^(@) . the velocity of the wave is 480 m/s

If a wave propagates through a medium. Then, the velocity of particle of medium is given by

The eqyation of wave is x= 5sin ((t)/( 0.4) -( x)/(4))cm the maximum velocity of the particles of the medium is