Two blocks of masses `m_(1) and m_(2)` being connected with a light spring of stiffness k are driven with forces `F_(1) and F_(2)` on a smooth plane .find the value of spring force .

Two blocks of masses m_(1) and m_(2) are connected by a spring of stiffness k. The coefficient of friction between the blocks and the surface is mu . Find the minimum constant force F to be applied to m_(1) in order to just slide the mass m_(2) .

Two blocks of masses m_(1) and m_(2) are connected with a light spring of force constant k and the whole system is kept on a frictionless horizontal surface. The masses are applied forces F_(1) and F_(2) as shown in fig. At any time the blocks have same acceleration a_(0) but in opposite direction. Now answer the following : the value of spring force is

Two blocks of masses m_(1) and m_(2) are connected with a light spring of force constant k and the whole system is kept on a frictionless horizontal surface. The masses are applied forces F_(1) and F_(2) as shown in fig. At any time the blocks have same acceleration a_(0) but in opposite direction. Now answer the following : If F_(2) is removed at this moment, then just after the acceleration of m_(2) is

Two blocks of masses m_(1) and m_(2) are connected with a light spring of force constant k and the whole system is kept on a frictionless horizontal surface. The masses are applied forces F_(1) and F_(2) as shown in fig. At any time the blocks have same acceleration a_(0) but in opposite direction. Now answer the following : The value of a_(0) is

Two blocks of masses m_(1) and m_(2) , connected by a weightless spring of stiffness k rest on a smooth horizontal plane as shown in Fig. Block 2 is shifted a small distance x to the left and then released. Find the velocity of centre of mass of the system after block 1 breaks off the wall.

Two blocks of masses m_(1) and m_(2) interconnect with a spring of stiffness K , are kept on as smooth horizontal surface. Find out the ratio of velocity, displacement, kinetic energy and acceleration block with mass m_(1) of block with mass m_(2) .

Two blocks of masses m and M connected by a light spring of stiffness k, are kept on a smooth horizontal surface as shown in figure. What should be the initial compression of the spring so that the system will be about to break off the surface, after releasing the block m_1 ?

Two blocks of masses m and m' are connected by a light spring on a horizontal frictionless table . The spring is compressed and then released . Find the ratio of acceleration of masses .

Two blocks of masses m_1 and m_2 inter connected by a spring of stiffness k are placed on a horizontal surface. If a constant horizontal force F acts on the block m_1 it slides through a distance x whereas m_2 remains stationary. If the coefficient of friction between all contacting surfaces is mu , find the speed of the block m_1 as the function x .

Two blocks of masses m_(1) and m_(2) are connected by an ideal sprit, of force constant k . The blocks are placed on smooth horizontal surface. A horizontal force F acts on the block m_(1) . Initially spring is relaxed, both the blocks are at rest. What is acceleration of centre of mass of system at the instant of maximum elongation of spring