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 :-

A transverse wave is described by the equation y=y_(0)sin4pi(upsilont-(x)/(lambda)) . The maximum particle velocity is equal to four times the wave velocity if

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

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 transverse wave is described by the equation y=A sin [2pi(ft-x//lambda)] . The maximum particle velocity is equal the wave velocity if :

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____

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

A transverse wave is given by y=A sin 2 pi ((t)/(T)-(x)/(lambda)) . The maximum particle velocity is equal to 4 times the wave velocity when