The sketch in the figure shows displacement time curve of a sinusoidal wave at `x = 8m`. Taking velocity of wave `v = 6m//s` along positive `x-`axis, write the equation the wave.

A plane progressive wave propagating along positive x-axis is

Figure shows a plot of the transverse displacement of the particle of a string at t = 0 through which a travelling wave is passing in the positive in the positive x-direction. The wave speed is 20cm//s . Find (a) the amplitude (b) the wavelength (c) the wave number and (d) the frequency of the wave.

The given figure shows the position of a medium particle at t=0, supporting a simple harmonic wave travelling either along or opposite to the positive x-axis. (a) write down the equation of the curve. (b) find the angle theta made by the tangent at point P with the x-axis. (c ) If the particle at P has a velocity v_(p) m//s , in the negative y-direction, as shown in figure, then determine the speed and direction of the wave. (d) find the frequency of the wave. (e) find the displacement equation of the particle at the origin as a function of time. (f) find the displacement equation of the wave.

The equation of a wave travelling along the positive x-axis, as shown in figure at t = 0 is given by

The figure shows an instantaneous displacement position graph of a sound wave travelling along the positive x-axis Identify the points of i.Maximum pressure, ii. Minimum pressure and iii. Atmospheric pressure (or normal pressure.)

A sinusoidal wave travels along a taut string of linear mass density 0.1g//cm . The particles oscillate along y- direction and wave moves in the positive x- direction . The amplitude and frequency of oscillation are 2mm and 50Hz respectively. The minimum distance between two particles oscillating in the same phase is 4m . If at x=2m and t=2s , the particle is at y=1 m m and its velocity is in positive y- direction, then the equation of this travelling wave is : ( y is in m m, t is in seconds and x is in metres )

For the wave shown in figure, write the equation of this wave if its position is shown at t= 0 . Speed of wave is v = 300m//s .

Snapshot of a string carrying a progressive wave is shown in figure at time t = 0. The wave moves along positive x - axis:

Figure given shows a sinusoidal wave on a string. If the frequency of the wave is 150 Hz, what is the velocity and wavelength of the given wave?

The graph shows a wave at t=0 travelling to the right with a velocity of 4 m//s . The equation that best represents the wave is