The phase difference between two points separated by 0.8 m in a wave of frequency 120 Hz is `90^(@)` . Then the velocity of wave will be

The phase difference between two points separated by 1m in a wave of frequency 120 Hz is 90^(@) . The wave velocity is

The phase difference between two points separated by 0.8 m in a wave of frequency 120 Hz is 0.5pi . The wave velocity is

The phase difference between two points separated by 0.8 m in a wave of frequency 120 Hz is 0.5pi . The velocity of wave will be

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

The wave velocity of progressive wave is 480 m/s and the phase difference between the two particles separated by a distance of 12 m is 1080^(@) . Then the number of waves passing across a point in 1 s is

In a medium in which a transverse prograssive wave is travelling, the phase difference between two points with a separation of 1.25 cm is (pi//4). If the frequancy of wave is 1000 Hz. Its velocity will be

The phase difference between particle velocity and wave velocity is

In a medium, the phase difference between two particles separated by a distance x is (pi)/(6) . If the frequency of the oscillation is 25 Hz and the velocity of propagation of the wave is 100 m/s then the value of x is equal to

The phase difference between two points is pi//3 . If the frequency of wave is 50 Hz, then what is the distance between two points? ("Given, "v=330 ms^(-1))