On a smooth table two particles of mass of each, travelling with a velocity `v_(0)` in opposite directions, strike the ends of a rigid massless rod length `l`, kept perpendicular to their velocity. The particles stick to the rod after the collision. Find the tension in rod during subsequent motion.
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A rod of mass m and length l in placed on a smooth table. An another particle of same mass m strikes the rod with velocity v_(0) in a direction perpendicular to the rod at distance x( lt l//2) from its centre . Particle sticks to the end. Let omega be the angular speed of system after collision , then Find the maximum possible value of impulse (by varying x) that can be imparted to the particle during collision. Particle still sticks to the rod.

A rod of mass m and length l in placed on a smooth table. An another particle of same mass m strikes the rod with velocity v_(0) in a direction perpendicular to the rod at distance x( lt l//2) from its centre . Particle sticks to the end. Let omega be the angular speed of system after collision , then As x is increased from 0 to l/2 , the angular speed omega .

A rod of mass m and length l in placed on a smooth table. An another particle of same mass m strikes the rod with velocity v_(0) in a direction perpendicular to the rod at distance x( lt l//2) from its centre . Particle sticks to the end. Let omega be the angular speed of system after collision , then As x is increased from 0 to l/2 , the angular speed omega .

A uniform rod of mass m and length l has been placed on a smooth table A particle of mass m, travelling perpendicular to the rod, hits it at a distance x = (l)/(sqrt6) from the centre C of the rod. Collision is elastic. (a) Find the speed of the centre of the rod and the particle after the collision. (b) Do you think there is a chance of second Collision? If yes, how is the system of particle and stick moving after the second collision?

Two particles A and B of mass m each hit the ends of a rigid bar of mass M and length l inelastically from opposite sides the speeds v and perpendicular to the rod. The bar is kept on a smooth horizontal plane (as shown). Find the linear and angular speed of the system (bar + particle).

Two particles A and B of mass m each hit the ends of a rigid bar of mass M and length l inelastically from opposite sides the speeds v and perpendicular to the rod. The bar is kept on a smooth horizontal plane (as shown). Find the linear and angular speed of the system (bar + particle).

A uniform rod of mass M and length l is placed on a smooth- horizontal surface with its one end pivoted to the surface. A small ball of mass m moving along the surface with a velocity v_(0) , perpendicular to the rod, collides elastically with the free end of the rod. Find: a. the angular velocity of the rod after collision. b. the impulse applied by the pivot on the rod during collision. (Take M//m = 2 )