A stepped dies of mass `M` and radius `R` is pivoted at its center `C` smoothly. An inextensible string connected with a light spring of stiffness `k` passes over the pulley. One end of the string is rigidly connected with the ground and the other end is attached to a body of mass `m` . If the string does not slide on the pulley, find the angularfrequency of oscillation of the syytem

A light string passes over a pulley. To one of it's ends 6 kg is attached. To the other end a mass of 10 kg attached. The tension in the string will be

A ring of mass m = 0.3kg can slide freely on smooth vertical rod. A light and inextensible string is connected to the ring and passes over a smooth and fixed pulley as shown in the figure. The distance of the pulley from the rod is 0.8m and the other end of the string is connected to a block of mass M = 0.5kg. The ring is held in level with pulley and then released from rest. The distance by which the ring moves down before coming to rest for the first time is 0.75K. Find K.

A block of mass m is attached at the end of an inextensible string which is wound over a rough pulley of mass M and radius R figure a. Assume the string does not slide over the pulley. Find the acceleration of the block when released.

A body of mass m hangs from a smooth fixed pulley P_(1) by the inextensible string fitted with the springs of stiffness k_(1) and k_(2) . The string passes over the smooth light pulley P_(2) which is connected with another ideal spring of stiffness k_(2) . Find the period of oscillation of the body.

A body of mass m hangs from a smooth fixed pulley P_(1) by the inextensible string fitted with the springs of stiffness k_(1) and k_(2) . The string passes over the smooth light pulley P_(2) which is connected with another ideal spring of stiffness k_(2) . Find the period of oscillation of the body.

A block of mass m is attached at the end of an inextensible string which is wound over a rough pulley of mass M and radius R figure a. Assume the stirng does not slide over the pulley. Find the acceleration of the block when released.

Two block of masses m_(1) and m_(2) are in equilibrium. The block m_(2) hangs from a fixed smooth pulley by an inextensible string that is fitted with a light spring of stiffness k as shown in fig. Neglecting friction and mass of the string, find the acceleration of the bodies just after the string S is cut.

Two block of masses m_(1) and m_(2) are in equilibrium. The block m_(2) hangs from a fixed smooth pulley by an inextensible string that is fitted with a light spring of stiffness k as shown in fig. Neglecting friction and mass of the string, find the acceleration of the bodies just after the string S is cut.

Two masses M and m are connected at the two ends of an inextensible string. The string passes over a smooth frictionless pulley. Calculate the acceleration of the masses . Given M > m.