Equation of a simple harmonic progressive wave is `y= 0.03 sin 8pi ( (t)/( 0.016)- (x)/( 1.6) ) `,where all the quantities are in S.I.units The velocity of wave is

The equation of a simple harmonic progressive wave is , y = sin (pi /2) [4t / 0.025 - x / 0.25] where all quantities are in S.I system. Find amplitude , frequency , wavelength and velocity of wave.

The equator of simple harmonic progressive wave is given by Y = 0.05 sin (pi) [ 20 t - x /6] where all quantities are in S.I.units . Calculate the displacement of a particle at 5 cm from origin and at the instant 0.1 second.

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

The equation of a simple harmonic progressive wave is y = 4 sin 2 (pi) [ t / 0.002 - x /35] where x and y are in cm and t in second . Calculate period of the wave

The equation of a simple harmonic progressive wave is y = 4 sin 2 (pi) [ t / 0.002 - x /35] where x and y are in cm and t in second . Calculate wave length

The equation of a simple harmonic progressive wave is y = 4 sin 2 (pi) [ t / 0.002 - x /35] where x and y are in cm and t in second . Calculate frequency

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 progressive wave is y = sin (pi) [ 4t/ 0.05 - x/0.5] . The quantities are expressed in S.I unit.Find the amplitude , frequency , wavelength and velocity of the wave.

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 displacement of a particle of mass 0.1 kg from . its mean position is given by, y = 0.05 sin 4pi(t+0.4) (where all the quantities are in S.I. unit). Period of motion is 0.1 s. The total energy of the particle is