A srting of length l hangs freely from a rigid support under its own weight Calculate the time required by transverse waves to travel from the lower end to the upper end

A string of length L and mass M hangs freely from a fixed point. Then the velocity of transverse waves along the string at a distance x from the free end is

A string of length L and mass M hangs freely from a fixed point . Calculate the velocity of the transverse wave along the string at any position. (b)Calculate time taken by a transverse pulse to traverse the string.

A uniform rope of length L and mass m is held at one end and whirled in a horizontal circle with angular velocity omega . Ignore gravity. Find the time required for a transverse wave to travel from one end of the rope to the other.

A uniform rope of mass 0.1 kg and length 2.45 m hangs from a ceiling. (a) Find the speed of transverse wave in the rope at a point 0.5 m distant from the lower end. (b) Calculate the time taken by a transverse wave to travel the full length of the rope.

A uniform rope of length 20 m and mass 5 kg is hanging vertically from a rigid support. A block of mass 4 kg is attached to the free end. The wave length of the transverse wave pulse at the lower end of the rope is 0.04 m. The wavelength of the same pulse as it reaches the top is

A heavy rope is suspended from a rigid support A wave pulse is set up at the lower end, then

A rubber string 10m long is suspended from a rigid support at its one end. Calculate the extension in the string due to its own weight. The density of rubber is 1.5xx10^(3) and Young's modulus for the rubber is 5xx10^(6)Nm^(-2) Take g=10Nkg^(-1) .