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

The equation of the progressive wave is y =a sin pi (nt -(x)/(5)) the ratio maximum paritcle velocity to wave velocity is

The equation of a wave is y =4 sin {(pi)/(2) (2t +(x)/(8))} ,where y,x are in cm and time is in second .The phase difference between two positions of the same particles which are occupied at time interval of 0.4 s is

The equation of a sound wave is y = 0.0015 sin (62.4x + 316 t) The wavelength of this wave is

If the equation of transverse wave is y=5 sin 2 pi [(t)/(0.04)-(x)/(40)] , where distance is in cm and time in second, then the wavelength of the wave is

The equation of a simple harmonic progressive wave is given by y = 4 sin (pi) [ t / 0.02 - x / 75] cm.Find the displacement and velocity of the particle at a distance of 50 cm from the origin and at the instant 0.1 second (all quantities are in c.g.s. units)

The equation of a plane progressive wave is given by, y= 3sin pi (( t)/( 0.02) -(x)/( 20)) .The frequency of the wave is

A transverse wave is derscried by the equation y=y_(0) sin 2 pi (ft - (x)/(lamda)) . The maximum particle velocity is equal to four times the wave velocity if :-

A partilce is executive simple harmonic motion given by x=5sin(4t-pi/6) The velocity of the particle when its displacement is 3 units is

A transverse wave is described by the equation Y=Y_(0) sin 2 pi (ft-frac(x)(lambda) . The maximum particle velocity is four times the wave velocity if

The equation of a wave is y=4 sin[(pi)/(2)(2t+(1)/(8)x)] where y and x are in centimeters and t is in seconds. Its amplitude, wavelength, velocity and frequency are