A travelling wave in a stretched string is described by the equation `y=Asin(kx- omega t)`. The ratio of a square of maximum particle velocity and square of wave velocity is

A travelling wave in a stretched string is described by the equation y = A sin (kx - omegat) the maximum particle velocity is

A sinusoidal wave is given by y=A sin (kx- omegat ). The ratio of its maximum particle velocity to wave velocity is

A transverse wave is described by the equation y=A sin 2pi( nt- x//lambda_0) . The maximum particle velocity is equal to 3 times the wave velocity if

A travelling wave is described by the equation y = y_(0) sin2 pi ((ft - (x)/lambda)) . The maximum particle velocity is equal to four times the wave velocity if

The equuation of a wave is given by y=0.5 sin (100 t+25x) The ratio of maximum particle velolcity to wave velocity is:

The equation y=Asin^2(kx-omegat) represents a wave motion with

Transverse wave is described by the equation y=y_0 sin 2pi (ft-x/lambda) .The maximum particle velocity is twice the wave velocity if wavelength is____

The equation of a travelling wave is, Y = A sin 2pi (pt-x//5) Then the ratio of maximum particle velocity to wave velocity is,

The equation of travelling wave is y=asin(bt+cx) then the ratio of wave velocity to maximum particle velocity is

The equation of a travelling wave is y =60 cos(1800t-6x) where y is in microns, t in seconds and x in metres. The ratio of maximum particle velocity to velocity of wave propagation is