Figure shows a snapshot for a travelling wave. The equation of wave at `t=0` will be

Figure shows a snapshot of a sinusoidal travelling wave taken at t= 0.3 s .The wavelength is 7.5 cm and the amplitude is 2 cm . If the crest P was at x= 0 at t = 0 , write the equation of travelling wave. ,

The figure shows the snapshot of a travelling sine wave in a string. Four elemental portions a,b,c and d are indicated on the string. The elemental portion with maximum potential energy is/are

The figure represents two snaps of a travelling wave on a string of mass per unit length mu=0.25 kg//m . The first snap is taken at t=0 and the second is taken at t=0.05 s . Determine the speed of the wave. Determine the frequency of the wave.

The figure represents two snaps of a travelling wave on a string of mass per unit length mu=0.25 kg//m . The first snap is taken at t=0 and the second is taken at t=0.05 s . Determine the equation of the wave.

The figure represents two snaps of a travelling wave on a string of mass per unit length mu=0.25 kg//m . The first snap is taken at t=0 and the second is taken at t=0.05 s . Determine the equation of the wave.

The string shown in the figure has a sinusoidal wave travelling towards right. The frequency of the wave is n. the correct statement (s) is/are.

The figure represents two snaps of a travelling wave on a string of mass per unit length mu=0.25 kg//m . The first snap is taken at t=0 and the second is taken at t=0.05 s . Determine the speed of the wave.

The figure represents two snaps of a travelling wave on a string of mass per unit length mu=0.25 kg//m . The first snap is taken at t=0 and the second is taken at t=0.05 s . Determine the frequency of the wave.

A transverse wave is travelling on a string. The equation of the wave

Adjoining figure shows the snapshot of two waves A and B at any time t. the equation for A is y=Asin (kx-omegat-phi) , and for B it is y=A sin (kx-omega t) . It is clearly shown in the figure that wave A is ahead of B by a distance phi//k .