There is friction between the block A and B while ground is smooth. Magnitude of force F is increasing linearly with time, `a_(1) and a_(2)` are accelerations of block A and B. Which graph best represents acceleration `a_(1) and a_(2)` of block A and B respectively with time?

Find the relation between acceleration a_(1) and a_(2)

In given system a_(1) and a_(2) are the accelerations of blocks 1 and 2. Then constraint relation is

Block A is placed on block B, whose mass is greater than that of A. There is friction between the blocks, while the ground is smooth. A horizontal force P, increasing linearly with time, begins to act on A. The accelerations a_(1) and a_2 of A and B respectively are plotted against time (t). The correct graph is

A block B is placed on the block A .The mass of block B is less than the mass of block A . Friction exists between the blocks , whereas the ground on which block A is placed is taken to be smooth. A horizontal force F , increasing linearly with time begins to act on B . The acceleration a_(A) and a_(B) of blocks A and B , respectively , are plotted against t . The correctly plotted graph is

Find the relation between acceleration of blocks a_(1), a_(2) and a_(3) .

If pulleys shown in the diagram are smooth and massless and a_(1) and a_(2) are acceleration of blocks of mass 4 kg and 8 kg respectively, then -

Figure shows two blocks each of mass m system is released from rest. If acceleration of blocks A and B at any instant (not initially) are a_(1) and a_(2) , respectively. Then

A ring of mass m connected through a string of length L with a block of mass M. If the ring is moving up with acceleration a_(m) and a_(M) is the acceleration of block. The relation between a_(m) and a_(M) is.

In the figure shown find relation between magnitudes of a_(A) and a_(B) .

In the figure shown find relation between magnitudes of a_(A) and a_(B) .