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

The equation of a travelling wave is given as y=A sin2pi(alphat-betax). The ratio of maximum particle speed to wave speed is (where symbols have their usual meaning and alpha, beta are constants)

The equation of wave is given as y= 7sinΠ(x-50t) where x and y are in cm t is in s. The ratio of wave velocity and maximum particle velocity is

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:

A travelling sound wave is described by the equation y = 2sin(4t - 5x) where y is measured in centimeter. t in seconds and x in meters. (a) Find the ratio of amplitude and wavelength of wave. (b) Find the ratio of maximum velocity of particular to wave velocity.

The relation between the particles velocity and wave velocity is -

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

Equation of a wave travelling in a medium is: y=a sin (bt-cx) . Which of the following are correct?

When a wave travels in a medium, the particle displacement is given by the equation y=asin 2pi(bt-cx), where a,b and c are constants. The maximum particle velocity will be twice the wave velocity. If