A senes 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 ampitude. When EWO waves are present on the same string. The net displacement of a given point is the sum of the Displacements of the individual waves at the point. What is the net displacement at point on the string vhere two pulses are crossing, (a) if the string is rigidly attached to the post ? (b) If the end at which eflection occurs is free to 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 ?

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 sinusoidal transverse wave is traveling on a string. Any point on the string

A transverse wave is travelling along a string from right to left. The figure represents the shape of the string at the given instant. A point M has a velocity

A transverse wave is travelling along a horizontal string. The first figure is the shape of the string at an instant of time. The second picture is a graph of the vertical displacement of a point on the string as a function of time. How far does this wave travel along the string in one second? ,

A transverse wave is travelling along a string from left to right. The figure below represents the shape of the string at a given instant. At this instant the points have an upward velocity are (here X-wave displacement, Y- particle displacement)

A pulse on the string is inverted when it is reflected from

A pulse on the string is inverted when it is reflected from

A pulse of a wave train travels along a stretched string and reaches the fixed end of the string. It will be reflected back with