For the wave shown in figure, the equation for the wave, travelling along `+x` acis with velocity `350 ms^(-1)` when its position at `t = 0` is as shown

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 .

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

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

In the figure shown the block B moves with , velocity 10 ms^(-1) . The velocity of A in the position shown is

in a sine wave ,postive of different particles at time t=0 is shown in figure. The equation for this wave if it is travelling along postive x -axis can beB

y-x curve at an instant for a wave travelling along x- axis on a string is shown. Slope at the point A on the curve, as shown, is tan 53^(@) .

y-x curve at an instant for a wave travelling along x- axis on a string is shown. Slope at the point A on the curve, as shown, is tan 53^(@) .

The equation of a transverse wave travelling along +x axis is given by y=0.15 sin (1.57x-31.4t) where y and x are represented in m and t in s. Find the amplitude, frequency velocity and wavelength of the 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

A transverse harmonic wave of amplitude 0.01 m is genrated at one end (x=0) of a long horizontal string by a tuning fork of frequency 500 Hz. At a given instant of time the displacement of the particle at x=0.1 m is -0.005 m and that of the particle at x=0.2 m is +0.005 m. calculate the wavelength and the wave velocity. obtain the equetion of the wave assuming that the wave is traveling along the + x-direction and that the end x=0 is at he equilibrium position at t=0.