A long rubber tube having mass 0.9 kg is fastened to a fixed support and the free end of the tube is attached to a cord which passes over a pulley and supports an object, with a mass of 5 kg as shown in figure. If the tube is struck by a transverse blow at one end, find the time required for the pulse to reach the other end.

A long rubber tube having mass 0.9kg is fastened to a fixed support and the free end of the tube is attached to a cord which passase over a pulley and supports an object, with a mass of 5 kg as shown in fig. If the tube is struck by a transvers blow at one end, the time required for the pulse to reach the 49 other end is (linear density of tube = 49/625 kg //m )

One end of 12.0m long rubber tube with a total mass of 0.9kg is fastened to a fixed support. A cord attached to the other end passes over a pulley and support an object with a mass of 5.0kg . The tube is struck a transverse blow at one end. Find the time required for the pulse to reach the other end. (g=9.8m//s^(2))

One end of 12.0m long rubber tube with a total mass of 0.9kg is fastened to a fixed support. A cord attached to the other end passes over a pulley and support an object with a mass of 5.0kg . The tube is struck a transverse blow at one end. Find the time required for the pulse to reach the other end. (g=9.8m//s^(2))

One end of 12.0 m long rubber tube with a total mass of 0.9 kg is fastened to a fixed support. A cord attached to the other and passes over a pulley and supports an object with a mass of 5.0 kg. The tube is struck a transverse blow at one end. Find the time required for the pulse to reach the other end (g=9.8 m//s^2)

A string of length 10.0 m and mass 1.25kg stretched with a tension of 50N. If a transverse pulse is created at one end of the string, how long does it take to reach the other end ?

A load of mass M is attached to the free and of a uniform wire of mass m as shown in figure. If a transverse wave pulse is generated at the lower end of wire, find the ratio of velocity of wave at bottom end and at top end of wire

In figure, the string has a mass of 14 kg. How much time will it take for a transverse disturbance produced at fixed support to reach the pulley?