Consider a sinusoidal wave travelling in positive x direction as shown in figure. The wave velocity is 40 cm/s.

Find: The velocity of a particle at point P at the instant shown.

Consider a sinusoidal travelling wave shown in figure. The wave velocity is + 40 cm//s . Find (a) the frequency (b) the phase difference between points 2.5 cm apart (c) the velocity of a particle at P at the instant shown.

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

The velocity - time graph of a particle is as shown in figure

A wave travelling in positive X-direction with A=0.2m has a velocity of 360 m//sec if lamda=60m , then correct exression for the wave is

A wave travelling in positive X-direction with A=0.2m has a velocity of 360 m//sec if lamda=60m , then correct exression for the wave is

A sinusoidal wave travelling in the positive x-direction has an amplitude of 15.0 cm , a wavelength of 40.0 cm and a frequency of 8.00 Hz. The verticle displacement of the medium at t = 0 and x = 0 is also 15.0 cm as shown in figure. (a) Find the angular wave number k , period T , angular frequency omega and speed v of the wave. (b) Write a general expression for wave function.

A wave pulse on a string on a string has the dimension shown in figure. The wave speed is v=1 cm /s . If point O is a free end. The shape of wave at time t = 3s si

A certain transverse sinusoidal wave of wavelength 20 cm is moving in the positive x direction. The transverse velocity of the particle at x=0 as a function of time is shown. The amplitude of the motion is:

A certain transverse sinusoidal wave of wavelength 20 cm is moving in the positive x direction. The transverse velocity of the particle at x=0 as a function of time is shown. The amplitude of the motion is: