In the figure, blocks A, B and C of mass m each have acceleration a1, a2 and a3 respectively. `F_(1)` and `F_(2)` are external forces of magnitudes 2mg and mg respectively, then :

In fig the blocks A,B,and C of mass m each have acceleration a_(1),a_(2), and a_(3) , repectively. F_(1) and F_(2) are external force of magnitude 2mg and mg , respectively. Then

In the figure the blocks A, B and C of mass m each , having accelerations a_(1) , a_(2) and a_(3) respectively . P_(1) and P_(2) are external forces of magnitude 2 mg and mg respecttively .

In the figure shown , the tension is strings are T_1 and T_2 for figure (1) and (2) respectively and acceleration of mass m are a_1 and a_2 for figure (1) and (2) respectively.Select the correct option

Two blocks A and B of masses 1kg and 2kg have acceleration (2hat(i))m//s^(2) and (-4hat(j))m//s^(2) . Find (a) Pseudo force on block A as applied with respect to the block B . (b) Pseudo force on block B as applied with respect to the block A

Three masses m_1 = m ,m_2 = 2m and m_3 = 3m are hund on a string passing over a frictionless pulley as shown in Figure . The mass of the string in negligible . The system is released from rest. If a_1 a_2 and a_3 are the accelerations of masses m_1, m_2 and m_3 respectively, then

In the figure the masses of the blocks A and B are same and each equal to m. The tensions in the strings OA and AB are T_(2) and T_(1) respectively. The system is in equilibrium with a constant horizontal force mg on B. The tension T_(1) is :-

A cord is wrapped on a pulley (disk) of mass M and radius R as shown in figure. To one end of the cord, a block of mass M is connected as shown and to other end in (a) a force of 2 Mg and in (b) a block of mass 2 M. Let angular acceleration of the disk in A and B is alpha_(A) and alpha_(beta) respectively, then (cord is not slipping on the pulley)

Three blocks are placed as shown in figure. Mass of A, B and C are m_(1), m_(2),"and "m_(3) respectively. The force exerted by block 'C' on 'B' is :-

Figure shows a heavy block kept on a frictionless surfaces and being mass m. At t=0 , the force on the left rop is withdrawn but the force on the right end continues to act. Let F_(1) and F_(2) be the magnitudes of the forces acting on the block by the right rope and the left rope on the block respectively, then :

In the arrangement shown, a_1 and a_2 are the acceleration of the two blocks (1&2) with respect to ground (in upward direction of each block with respect to lift. Regarding the tension in the string, the incorrect statement is (m_1 gt m_2)