The equation of a travelling sound wave is `y = 6.0 sin (600 t - 1.8 x) where y is measured in `10^-5m`, t in second and x in metre. (a) Find the ratio of the displacement amplitude of the particles to the wavelength of the wave. (b) Find the ratio of the velocity amplitude of the particles to the wave speed.

A travelling sound wave is described by the equation y = 2sin(4t - 5x) where y is measured in centimeter. t in seconds and x in meters. (a) Find the ratio of amplitude and wavelength of wave. (b) Find the ratio of maximum velocity of particular to wave velocity.

A travelling sound wave is described by the equation y = 2sin(4t - 5x) where y is measured in centimeter. t in seconds and x in meters. (a) Find the ratio of amplitude and wavelength of wave. (b) Find the ratio of maximum velocity of particular to wave velocity.

The equation of a travelling plane sound wave has the form y=60 cos (1800t-5.3x) , where y is in micrometres, t in seconds and x in metres. Find (a). The ratio of the displacement amplitude with which the particle of the medium oscillate to the wavelength, (b).the velocity oscillation ammplitude of particles of the medium and its ratio to the wave propagation velocity , (c ).the oscillation amplitude of relative deformation of the medium and its relation to the velocity oscillation amplitude of particles of the medium, (d). the particle acceleration amplitude.

The equation of a travelling plane sound wave has the form y=60 cos (1800t-5.3x) , where y is in micrometres, t in seconds and x in metres. Find (a). The ratio of the displacement amplitude with which the particle of the medium oscillate to the wavelength, (b).the velocity oscillation ammplitude of particles of the medium and its ratio to the wave propagation velocity , (c ).the oscillation amplitude of relative deformation of the medium and its relation to the velocity oscillation amplitude of particles of the medium, (d). the particle acceleration amplitude.

If the equation of a travelling wave is given as y = 40 cos (1600t + 6x) , (where y is in millimeter, t is in second and x is in meter), then ratio of the wave speed to the maximum particle speed will be

If the equation of a travelling wave is given as y = 40 cos (1600t + 6x), (where y is in millimeter, t is in second and x is in meter), then ratio of the wave speed to the maximum particle speed will be

The equation of a travelling wave is y =60 cos(1800t-6x) where y is in microns, t in seconds and x in metres. The ratio of maximum particle velocity to velocity of wave propagation is