Consider two waves passing through the same string. Principle of superposition for displacement says that the net displacement of a particle on the string is sum of the displacements produced by the two waves individually. Suppose we state similar principles for the net velocity of the particle and the net kinetic energy of the particle. Such a principle willl be valid for

A transverse wave passes through a medium, the maximum speed of the vibrating particle when the displacement of the particle from the mean position is

According to a principle, at a particular point in a medium, the resultant displacement produced by a number of waves is the vector sum of the displacements produced by each of the waves. Name the principle.

For a sine wave passing through a medium, let y be the displacement of a particle, v be its velocity and a be its acceleration :-

For a sine wave passing through a medium, let y be the displacement of a particle, v be its velocity and a be its acceleration :-

For a sine wave passing through a medium, let y be the displacement of a particle, v be its velocity and a be its acceleration :-

A series of pulses, each of amplitude 0.150 m , are sent on a string that is attached to a wall at one end. The pulses are reflected at the wall and travel back along the string without loss of amplitude. When two waves are present on the same string. The net displacement of a given point is the sum of the displacement of the individuals waves at the point. What is the net displacement at point on the spring where two pulses am crossing, (a) if the string is rigidly attached to the post? (b) if the end at which reflection occurs is free is slide up and down ?

A series of pulses, each of amplitude 0.150 m , are sent on a string that is attached to a wall at one end. The pulses are reflected at the wall and travel back along the string without loss of amplitude. When two waves are present on the same string. The net displacement of a given point is the sum of the displacement of the individuals waves at the point. What is the net displacement at point on the spring where two pulses am crossing, (a) if the string is rigidly attached to the post? (b) if the end at which reflection occurs is free is slide up and down ?

The displacement of particles in a string stretched in the x-direction is represented by y.among the following expressions for y, those describing wave motion are

Assertion: Standing waves are formed when amplitudes of two constituent waves are equal. Reason: At any point net displacement at a given time is resultant of displacement of constituent waves.