The equation of stationary wave is `y = A sin kt cos omega` ,where y and x in second choose the correct option

A wire is stretched and fixed at two ends. Transverse stationary waves are formed in it. It oscillates in its third overtone mode. The equation of stationary wave is y= A sin kx cos omegat Choose the correct options.

A wire is stretched and fixed at two ends. Transverse stationary waves are formed in it. It oscillates in its third overtone mode. The equation of stationary wave is y= A sin kx cos omegat Choose the correct options.

The equation of a stationary wave is y = 2 A sin k x cos omega t . Find the amplitudes, velocities and wavelengths of the two progressive waves, which on superposition produce this stationary wave .

Find the wrong statement from the following about the equation of stationary wave given by Y = 0.04 cos(pix) sin(50 pit) m where tis in second. Then for the stationary wave.

The equation of a stationary wave is given by y=6sin(pi)//(x)cos40pit Where y and x are given in cm and time t in second. Then the amplitude of progressive wave is

Regarding stationary waves, choose the correct options.

Regarding stationary waves, choose the correct options.

Fine the wrong statement from the following : The equation of a stationary wave is given by y= 6 cos ((pi x)/(5)) sin (40 pix) ,where y and x are in cm and t is in second. Then for the stationary wave,

Find the incorrect from the following the equation of a stationary wave is given by y=6cos((pix)/(5))sin(4pit) , where y and x are in cm and t is in second. Then, for the stationary wave

The equation of a stationary wavw is given by y = 5 cos (pix//3 )sin 40 pit, where y and x are given in metres and t in seconds, them the amplitude of the progressive wave is