A uniform rod AB which is free to swing in the vertical plane about a horizontal axis through A, is hanging freely. A particle of equal mass strikes the rod with a velocity `v_(0)` and gets stucks to it. Find the angular velocity of the combination immediately after the collision.

A wodden log mass M and length L is hinged by a frictionless nail at O.A bullet of mass m strikes with velocity v and strikes with velocity v and sticks to it . Find angular velocity of the system immediately after after the collision about O . .

A uniform rod of legth L is free to rotate in a vertica plane about a fixed horizontal axis through B . The rod begins rotating from rest. The angular velocity omega at angle theta is given as

A uniform rod AB of length L and mass M is lying on a smooth table. A small particle if mass m strike the rod with velocity v_(0) at point C at a distance comes to rest after collision. Then find the value of x , so that point A of the rod remains stationary just after collision. .

A rod of length l forming an angle theta with the horizontal strikes a frictionless floor at A with its centre of mass velocity v_(0) and no angular velocity. Assuming that the impact at A is perfectly elastic. Find the angular velocity of the rod immediately after the impact.

A wooden log of mass M and length L is hinged by a frictionless nail at O . A bullet of mass m strikes with velocity v and sticks to it. Find the angular velocity of the system, immediately after the collision about O . Also, calculate the minimum value of v so that log becomes horizontal after collision.

A uniform metal rod is rotated in horizontal plane about a vertical axis passing through its end at uniform rate. The tension in the rod is

Suppose the particle of the previous problem has a mass m and a speed v before the collision and it sticks to the rod after the collision. The rod has a mass M. a. Find the velocity of the particle with respect to C of the system consituting the rod plus the particle. b. Find the velociyt of the particle with respect to C before the collision. c. Find the velocity of the rod with respect to C before the colision. e. find the moment of inertia of the system about the vertical axis through the centre of mass C after the collision. f. Find the velociyt of the centre of mass C and the angular velocity of the system about the centre of mass after the collision.

A uniform rod of length L lies on a smooth horizontal table. The rod has a mass M . A particle of mass m moving with speed v strikes the rod perpendicularly at one of the ends of the rod sticks to it after collision. Find the velocity of the rod with respect to C before the collision

A rod AB of mass M and length L is lying on a horizontal frictionless surface. A particle of mass m traveling along the surface hits the end A of the rod with a velocity v_(0) in a direction perpendicular to AB . The collision is completely elastic. After the collision the particle comes to rest. Find the ration m//M .