A solid cylindrical pulley of mass m and radius `R = 10 cm` is hinged about its horizontal axis of symmetry. A light spring is wrapped around it, and small block of mass 'm' is suspended from the string. Now the block is lefted vertically by a distance h = 1.8 m and released. Just after the string becomes taut again, find the angular velocity of the cylinder in rad/s (Take `g = 10 m//sec^(2)`)

A solid cylinder of mass M and of radius R is fixed on a frictionless axle over a well. A rope negligible mass is wrapped around the cylinder. A bucket of uniform mass m is suspended from it. The linear acceleration bucket will:

A string is wrapped several times on a cylinder of mass M and radius R . the cylinder is pivoted about its adxis of block symmetry. A block of mass m tied to the string rest on a support positioned so that the string has no slack. The block is carefully lifted vertically a distance h , and the support is removed as shown figure. a. just before the string becomes taut evalute the angular velocity omega_(0) of the cylinder ,the speed v_(0) of the falling body, m and the kinetic energy K_(0) of the system. b. Evaluate the corresponding quanitities omega_(1), v_(1) and K_(1) for the instant just after the string becomes taut. c. Why is K_(1) less than K_(0) ? Where does the energy go? d. If M=m , what fraction of the kinetic energy is lost when the string becomes taut?

The block of mass m is at rest. Find the tension in the string A .

A block of mass m suspended from a spring of spring constant k . Find the amplitude of S.H.M.

A uniform disc of mass M and radius R is mounted on a fixed horizontal axis. A block of mass m hangs from a massless string that is wrapped around the rim of the disc. The magnitude of the acceleration of the falling block (m) is

A block of mass m is attached to one end of a light string which is wrapped on a disc of mass 2m and radius R. The total length of the slack portion of the string is l . The block is released from rest. The angular velocity of the disc just after the string becomes taut is

A disc of mass m and radius r is free to rotate about its centre as shown in the figure. A string is wrapped over its rim and a block of mass m is attached to the free end of the string. The system is released from rest. The speed of the block as it descends through a height h, is :-

A string is wrapped around a cylinder of mass M and radius R . The string is pulled vertically upwards to prevent the centre of mass from falling as the cylinder unwinds the string. The tension in the string is

A wheel of moment of inertia I and radius r is free to rotate about its centre as shown in figure. A string is wrapped over its rim and a block of mass m is attached to the free end of the string. The system is released from rest. Find the speed of the block as it descends through a height h.

A block of mass m is suspended from a pulley in form of a circular disc of mass m & radius R. The system is released from rest, find the angular velocity of disc when block has dropped by height h. (there is no slipping between string & pulley)