`y=6sin"(pix)/(6)cos8pit` represents a stationary nodes is

y=6sin""(pix)/(6)cos8pit represents a stationary wave. The frequency of the stationary wave in cycles/s is

The equation y=5sin((pix)/(25))cos(450t) represents the stationary wave in a vibrating sonometer wire, where x,y are in cm and t in sec. The distances of 2nd and 3rd nodes from one end are (in cm).

The equation y=4cos ((2pix)/(50))sin(100pit) represents a stationary wave, where x and y are in cm, and 't' is in s. Then a node occurs at a distance of origin

The equation y=4cos ((2pix)/50) sin (200 pi t) represents a stationary wave, where x and y are in cm and t in s. Then a node occurs at a distance of origin

The equation y = 0.15 sin 5x cos 300t represents a stationary wave. The wavelength of this stationary wave will be -

The equation of a stationary a stationary wave is represented by y=4sin((pi)/(6))(cos20pit) when x and y are in cm and t is in second. Wavelength of the component waves is

The equation of a stationary wave is given by y=6sin.(2pix)/(3)cos40pit . Where y and x are in cm and time t is in s. In respect to the component progressive waves, calculate (a) amplitude (b) wavelength (c ) frequency

The equation of a longitudinal stationary wave produced in a closed organ pipe is y=6 sin (2pix)/(6) cos 160 pi t where x, y are in cm and t in second.Find (i)the frequency , amplitude and wavelength of the original progressive wave (ii)separation between two successive nodes and (iii)equation of the original progressive 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