A light string passes over a frictionless pulley. To one of its ends a mass of 6 kg is attached. To its other end a mass of 10 kg is attached. The tension in the thread will be

Two masses 2 kg and 4 kg are connected at two ends of light inextensible string passing over a frictionless pulley . If the masses are released , then find the accelaration of the masses and the tension in the string .

Two masses 2 kg and 4 kg are connected at the two ends of light inextensible string passing over a frictionless pulley. If the masses are released, then find the acceleration of the masses and the tension in the string.

A light pulley is suspended at the lower end of a spring of constant k_(1) , as shown in figure. An inextensible string passes over the pulley. At one end of string a mass m is suspended, the other end of the string is attached to another spring of constant k_(2) . The other ends of both the springs are attached to rigid supports, as shown. Neglecting masses of springs and any friction, find the time period of small oscillations of mass m about equilibrium position.

A light inelastic thread passes over a small frictionless pulley. Two blocks of masses m = 1 kg and M = 3 kg, respectively, are attached with the thread and heavy block rests on a surface. A particle P of mass 1 kg moving upward with a velocity of 10 ms^(-1) collides with the lighter block and sticks to it. The speed of the bigger block just after the string is taut will be [g = 10 ms^(-2)]

A light rope is passed over a pulley such that at its one end a block is attached , and on the other end a boy is climbing up with acceleration g/2 relative to rope. Mass of the block is 30 kg and that of the boy is 40 kg. Find the tension and acceleration of the rope .

Two masses M_(1) and M_(2) are attached to the ends of a light string which passes over a massless pulley attached to the top of a double inclined smooth plane of angles of inclination alpha and beta .The tension in the string is :

A string with one end fixed on a right well , passing over a fixed frictionless pulley at a distance of 2 m from the well , has a point mass M = 2kg attached to the it at a distance of I m from the well . A mass m= 0.5 kg attached at the free end is field at rest as this the string is horizontal between the wall and the pulley when will be the speed with which the mass M with hit the well when the mass m is released ?

Two blocks are connected by a massless string that passes over a frictionless peg as shown in Fig. 3E.46. One end of the string is attached to a mass m_(1) = 3 kg i.e. a distance R = 1.20 m from the peg. The other end of the string is connected to a block of mass m_(2) = 6 kg resting on a table. From what angle theta , measured from the vertical, must the 3 kg block be released in order to just lift the 6 kg block off the table ?

A body of mass 10 kg is placed on the horizontal smooth table (see given figure). A string is tied with it which passes over a frictionless pulley. The other end of the string is tied with a body of mass 5 kg. When the bodies move, the acceleration produced in them, is