A travelling wave has the frequency `upsilon` and the particle displacement amplitude `A`. For the wave the particle velocity amplitude is ………………… and the particle acceleration amplitude is ……………………..

What is the frequency of a sound wave with a displacement amplitude 1.1 xx 10^(-5)m and pressure amplitude "28 N/m"^2?

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.

If the maximum particle velocity is 4 times of the wave velocity then relation between wavelength and amplitude is

Show that the particle speed can never be equal to the wave speed in a sine wave if the amplitude is less than wavelength divided by 2pi .

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 frequency of amplitude modulated wave is equal to

A particle executing SHM with an amplitude A. The displacement of the particle when its potential energy is half of its total energy is

A particle executing simple harmonic motion with an amplitude A. The distance travelled by the particle in one time period is

In travelling waves, the relation between particle velocity V_(p) , wave velocity V wave shape slope m is given by

A sine wave has an amplitude A and wavelength lamda . The ratio of particle velocity and the wave velocity is equal to (2piA=lamda)