A pulley with a radius of 3 cm and rotational inertia of `4.5xx10^-3` kg `m^2` is suspended from the ceiling. A rope passes over it with a 2 kg block attached to one end and a 4 kg block attached to the other. The rope does not slip on the pulley. At any instant after the blocks start moving, the object with the greatest kinetic energy is

The pulley shown in figure has a radius 10 cm and moment of inertia 0.5 kg-m^2 about its axis. Assuming the inclined planes to be frictionless, calculate the acceleration of the 4.0 kg block.

A small pulley of radius 20 cm and moment of inertia 0.32kg-m^(2) is used to hang a 2 kg mass with the help of massless string. If the block is released, for no slipping condition acceleration of the block will be

A pulley fixed to the ceiling carries a string with blocks of mass m and 3m attached to its ends. The masses of string and pulley are negligible .When the system is released, its center of mass moves with what acceleration

A price of length 1 m and mass 1 kg is suspended vertically from one end of a massless string passing on asmooth , fixed pulley . A ball of mass 2 kg is attached to the other end from the position shown . Time taken by the ball to cross the pipe is shown. Time taken by the ball to cross the pipe is

A light rope is passed over a pulley such that at its one end a block is attached , and on the other end a boy is climbing up with acceleration g/2 relative to rope. Mass of the block is 30 kg and that of the boy is 40 kg. Find the tension and acceleration of the rope .

Two blocks of masses 6 kg and 4 kg are attached to the two ends of a massless string passing over a smooth fixed pulley. if the system is released, the acceleration of the centre of mass of the system will be

A small pulley of radius 20 cm and moment of inertia 0.32 kg-m^(2) is used to hang a 2 kg mass with the help of massless string. If the block is released, for no slipping condition find the acceleration of the block ( in m//s^(2) ).

The pulley shown in figure has a radius of 20 cm and moment of inertial 0.2 kg-m^2. The string going over it is attached at one end to a vertical sprign of spring constant 50 N/m fixed from below and supports a 1 kg mas at other end. The system is released from rest with the spring at its natural length. Find the speed of the block when it has desceds through 10 cm. Take g=10 m/s^2 .

A block of mass 0.2 kg is suspended from the ceiling by a light string. A second block of mass 0.3 kg is suspended from the first block through another string. Find the tensions in the two strings. Take g=10 m/s^2 .

Two blocks of masses m_1 = 4 kg and m_2 = 2 kg are connected to the ends of a string which passes over a massless, frictionless pulley. The total downwards thrust on the pulley is nearly