A string is suspended from the ceiling. A wave train is produced at the bottom at regular interval. As the wave moves upwards

Standing waves can be produced

A uniform string of length 'L' is suspended from a point on the ceiling. A small wave pulse is now introduced at its lowest end and it starts moving up towards the ceiling. (i) What will be the speed of the wave pulse when it has moved up a distance x? (ii) How much time does this wave pulse take to reach the ceiling?

When are stationary waves produced?

A pendulum suspended from the ceiling of the train has a time period of two seconds when the train is at rest, then the time period of the pendulum, if the train accelerates 10 m//s^(2) will be (g=10m//s^(2))

A heavy but unifrom rope of length L is suspended from a celling . A particle is dropped from the celling at the instant when the bottom end is given a transverse wave pulse. Where will the particle meet the pulse.

A pendulum suspended from the ceiling of train has a period T When the train is at rest. When the train si accelerating with a uniform acceleratio a, the period of oscillation will

Electromagnetic wave is produced by

A mass m is suspended from the ceiling by a string with variable linear mass density (mu) .A wave pulse is produced at the top of an oscillator which travels from top to bottom with constant wave speed. (x axis is positive downwards). Then.

A bob of mass m is suspended from the ceiling of a train moving with an acceleration a as shown in figure. Find the angle theta in equilibrium position.

A heavy but uniform rope of lenth L is suspended from a ceiling. (a) Write the velocity of a transverse wave travelling on the string as a function of the distance from the lower end. (b) If the rope is given a sudden sideways jerk at the bottom, how long will it take for the pulse to reach teh celling ? (c ) A particle is dropped from the ceiling at the instant the bottom end is given the jerk where will the particle meet the pulse ?