The displacement of the particle at x = 0 of a stretched string carrying a wave in the positive x-direction is given by `f(t)sin(t/T)`. The wave speed is v. Write the wave equation.

The displacement of the particle at x = 0 of a stretched string carrying a wave in the positive x-direction is given by f(t)=Asin(t/T) . The wave speed is v. Write the wave equation.

The displacement of the particle at x = 0 of a stretched string carrying a wave in the positive x-direction is given by f(t)=Asin(t/T) . The wave speed is v. Write the wave equation.

The displacement of the particle at x = 0 of a streached string carrying a wave in the positive x direction is given by f(t)= A sin (t/T) . The wave speed is V. Write the wave equation

The displacement of A particle at x = 0 of a stretched string carrying a wave in the positive X-direction is given by f(t)=Ae^(-t^2) . The wave speed is V. Write equation of the wave.

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.

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 displacement of a particle of a string carrying a travelling wave is given by y=(4cm)sin2pi(0.5x-100t) , where x is in cm and t is in seconds. The speed of the wave is

The displacement of a particle of a string carrying a travelling wave is given by y = (3 cm) sin 6.28 (0.50 x – 50 t) where x is in centimeter and t is in second. The velocity of the wave is-