Energy propagation in string wave

A transverse wave of amplitude 2 m, wavelength 4 m and frequency 6 Hz is propagating in a string toward positive y-direction. The equation of the wave may be (y is in m and t is in s)

A transverse wave of amplitude 0.50 m, wavelength 1 m and frequency 2 hertz is propagating in a string in the negative x-direction. The expression form of the wave is

The followig figure shows a wave propagating in a string. The speed of point A, which is 3 cm above the mean position is 7sqrt(3)picm//s at the moment shown. What is the speed of the wave in m/s?

Statement-1: Waves on a string are always transverse in nature. ltBrgt Statement-2: The velocity of a transverse wave propagating along a string is independent of the frequency of the propagating wave.

A transverse wave of amplitude 0.5 m and wavelength 1 m and frequency 2 Hz is propagating in a string in the negative x - direction. The expression for this wave is [

A transverse wave is propagating along a string of length l. when string elongated by l/20 cm, velocity of wave is v. what will be its velocity when it is elongatd by l/10 ?

If the energy density and velocity of a wave are u and c respectively then the energy propagating per second per unit area will be -

Assertion: In a sinusoidal travelling wave on a string ,potential energy of deformation of string element at exterme position is maximum Reason: The particles in sinusoidal travelling wave perform SHM

Propagation Of Sound Waves

The dimensions of the propagation constant of the wave is