A longitudinal wave is represented by
`x = x_(0) "sin"2pi("nt" - ("x")/(lambda))`
The maximum particle velocity will be four times the wave velocity if

A longitudinal wave is represented by x= x_(0) sin 2pi(nt -x//lamda) . The maximum particle velocity will be four times the wave velocity if :

A longitudinal wave is described by the equation y = y_(0) sin 2pi (ft - x// lambda) . The maximum particle velocity is equal to four times the wave velocity if ……….. .

A transverse wave is represented by the equation y=y_0sin2pi(vt-x/lambda) .The maximum particle velocity is equal to four times the wave velocity if

Simple harmonic wave is represented by the relation y (x, t) = a_(0) sin 2pi (vt - (x)/(lambda)) If the maximum particle velocity is three times the wave velocity, the wavelength lambda of the wave is

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

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

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 :-