The maximum particle velocity is 3 times the wave velocity of a progressive wave. If the amplitude of the particle is "a". The phase difference between the two particles seperated by a distance of 'x' is

If the maximum particle velocity is 4 times of the wave velocity then relation between wavelength and amplitude is

A progressive wave moves with a velocity of 36m/ s in a medium with a frequency of 200Hz. The phase difference between two particles seperated by a distance of 1 cm is

How does particle velocity differ from wave velocity?

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

A particle executing SHM. The phase difference between velocity and displacement is

The ratio of maximum particle velocity to wave velocity is [ where symbols have their usual meanings ]

The angular frequency of a particle in a progressive wave in an elastic medium is 100 pi rads^(-1) and it is moving with a velocity of 200ms^(-1) The phase difference between two particles seperated by a distance of 20m is

The relation between the particles velocity and wave velocity is -

The angular frequency of a particle in a progressive wave in an elastic medium is 50pi rad/s and it is moving with velocity of 150 m/s. The phase difference between two particles separated by a distance 30m at the same instant will be

In stationary wave, phase difference between two particles can't be pi/3 . Is this statement true or false?