Three identical particles A, B and C of mass m lie on a smooth horizontal table. Light inextensible strings which are just taut connect AB and BC and `angleABC` is 135° . An impulse J is imparted to the particle C in the direction BC. Mass of each particle is m. Choose the correct options.

There particles A, B and C have masses m, 2m and m respectively. They lie on a smooth horizontal table connected by light inextensible strings AB and BC. The string are taut and lt ABC = 120^(@) . An impulse is applied to particle A along BA so that it acquires a velocity u. Find the initial speeds of B and C.

A particle A of mass 2m is held on a smooth horizontal table and is attached to one end of an inelastic string which runs over a smooth light pulley at the edge of the table. At the other end of the string there hangs another particle B of mass m, the distance from A to the pulley is l. The particle A is then projected towards the pulley with velocity u. (a) Find the time before the string becomes taut, and shown that after the string becomes taut, the initial velocity of A and B is 4u//3 . (b) Find the common velocity when A reaches the pulley (assume that B has not yet reached the ground).

A triangular block ABC of mass m and side 2a lies on a smooth horizontal plane is shown. There point masses of the m each strikes the block at A, B and C with speed as shown. After the collision the particle come to rest. Then

A rod AB of mass M and length L lies on smooth horizontal table impulse J is applied to end A as shown in the figure immediately after imparting the impulse :

Three identical particles are placed on a horizontal smooth table, connected with strings as shown. The particle B is imparted a velocity V_(0) = 9 m//s in horizontal direction perpendicular to the line ABC. Find speed of particle A when it is about to collide with C.

A smooth narrow tube in the form of an arc AB of a circle of centre O and radius r is fixed so that A is vertically above O and OB is horizontal. Particles P of mass m and Q of mass 2 m with a light inextensible string of length (pi r//2) connecting them are placed inside the rube with P at A and Q at B and released from rest. Assuming the string remains taut during motion, find the speed of particles when P reaches B. .

A particle of mass m and momentum p moves on a smooth horizontal table and collides directly and elastically with a similar particle (of mass m) having momentum -2p . The loss (-) or gain (+) in the kinetic energy of the first particle in the collision is

Two identical particles A and B of mass m each are connected together by a light and inextensible string of length l. The particle are held at rest in air in same horizontal level at a separation I. Both particles are released simultaneously and one of them (say A) is given speed V_(0) vertically upward. Choose the correct options (s). Ignore air resistance.