In figure two identical particles each of mass `m` are tied together with an inextensible string. This is pulled at its centre with a constant force `F`. If the whole system lines on a smooth horizontal plane, then the acceleration of each particle towards each other is

In figure two identical particals each of mass m are tied together with an inextensible string. This is pulled at its centre wwith a constant force F . If the whole system lines on a smooth horizontal plane, then the aceleration of each partical towards each other is

Two particles each of mass m are connected by a light inextensible string and a particle of mass M is attached to the midpoint of the string. The system is at rest on a smooth horizontal table with string just taut and in a straight line. The particle M is given a velocity v along the table perpendicular to the string. Prove that when the two particles are about to collide : (i) The velocity of M is (Mv)/((M + 2m)) (ii) The speed of each of the other particles is ((sqrt2M (M + m))/((M + 2m)))v .

Two blocks of equal mass m are tied to each other through light string. One of the blocks is pulled along the line joining them with a constant force F. Find the tension in the string joining the blocks.

Two identical blocks A and B each of mass M are connected to each other through a light string. The system is placed on a smooth horizontal floor. When a constant force F is applied horizontally on the block A, find the tension in the string.

Four identical particles each of mass m are arranged at the corners of a square of sie a. If mass of one of th particle is doubled, the shift in the centre of mass of the system is

Two identical particles move towards each other with velocity 2v and v, respectively. The velocity of the centre of mass is:

Two particles of a mass 2m and m are tied with an inextensible string the particle of mass m is given a speed V as shown in the figure. Find the speed with which the particle of mass 2m starts moving.

Two particles of a mass 2m and m are tied with an inextensible string the particle of mass m is given a speed V as shown in the figure. Find the speed with which the particle of mass 2m starts moving.

Two particles having mass ratio n:1 are interconnected by a light inextensible string that passes over a smooth pulley . If the system is released , then the acceleration of the centre of mass of the system is

Two identicle particles A and B, each of mass m, are interconnected by a spring of stiffness k. If particle B experiences a forec F and the elongation of the spring is x, the acceleration of particle B relative to particle A is equal to