Calculate the accelerations of the pulleys B and C and the tension in the string passing over the pulley A of the figure Figure 5.22.

The tension in the string in the pulley system shown in .

Consider4 the situation shown in figure. Bothe the pulleys and the string are light and all the surfaces are friction less. a. Find the acceleration of the mass M. b. Find the tension in the string c. Calculate the force exerted by the clamp on the pulley A in the figure.

String is wrapped over a pulley and free end is fixed to the ceiling as shown in figure. Mass of the pulley is m and its radius is R. Assume that pulley is identical to dise. Calculate acceleration of pulley as it is allowed to fall by unwinding the string. Assume that string does not slip over the pulley.

Angular acceleration of the cylinder C shows in the figure is (all strings and the pulley are ideal)

The ratio of acceleration of pulley to the acceleration of the block is (string is inextensible).

A string is would over a cylinder of mass M, radius R and moment of inertia I and then the string is would over the pulley as shown in the figure. If the system is released from rest then determine the tension is tring. Assume there is no slipping between string and pulley cylinder.

In the arrangement shown, find the acceleration of each block, tension in the string and reaction in the pulley. The string and pulley are light (massless) (m_(1)gtm_(2)) . Neglect the friction in pulley.