Two masses `A` and `B` connected with an inextensible string of length `l` lie on a smooth horizontal plane. `A` is given a velocity of `vm//s` along the ground perpendicular to line AB as shown in figure. Find the tension in string during their subsequent motion

Two blocks of masses m and M are connected by an inextensible light string . When a constant horizontal force acts on the block of mass M. The tension in the string is

Two identical small balls, each of mass m , are connected by a massless and inextensible string of length l and placed on a smooth horizontal xy plane. An external agent pulling the string from its mid-point along y -axis with velocity v_(0) as shown in Fig. When the separation between the two balls reduces to l//2 then the speed of each ball will be

Two particles of mass m and 2m are connected by a string of length L and placed at rest over a smooth horizontal surface. The particles are then given velocities as indicated in the figure shown. The tension developed in the string will be

A mass M is hung with a light inextensible string as shown in Find the tension in the horizontal part of the string .

Two masses of 10 kg and 20 kg are connected with an inextensible string passing over two smooth pulleys as shown in the figure. The acceleration of 20 kg mass will be :

Two particles A and B of equal mass m are attached by a string of length 2l and initially placed over a smooth horizontal table in the position shown in fig. particle B is projected across the table with speed u perpendicular to AB as shown in the figure. find the velocities of each particle after the string becomes taut and the magnitude of the impulse tension.

Two particles A and B of equal mass m are attached by a string of length 2l and initially placed over a smooth horizontal table in the positoin shown in fig. particle B is projected across the table with speed u perpendicular to AB as shown in the figure. find the velocities of each particle after the string becomes taut and the magnitude of the impulse tension.

A bead is connected with a fixed disc of radius R by an inextensible massless string in a smooth horizontal plane. If the bead is pushed with a velocity v_(0) prependicular to the string, the bead moves in a curve and consequently collapses on the disc. Then

A point mass m connected to one end of inextensible string of length l and other end of string is fixed at peg. String is free to rotate in vertical plane. Find the minimum velocity given to the mass in horizontal direction so that it hits the peg in its subsequent motion.

Two ring of mass m and 2m are connected with a light spring and can slide over two frictionless parallel horizontal rails as shown in figure. Ring of mass m is given velocity 'v_(0)' in horizontal direction as shown. Calculate the maximum stretch in spring during subsequent motion.