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

The given arrangement is released from rest when spring is in natural length. Maximum extension in spring during the motion is x_(0). a_(1),a_(2) and a_(3) are accelerations of the blocks. Make the correct options

In each case m_(1) = 4 kg and m_(2) = 3 kg . If a_(1) and a_(2) and a_(3) are the respective acceleration of the block m_(1) in given situation, then

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 -

Let a_(1) & a_(2) are the acceleration of A & B. Let b_(1) & b_(2) the acceleration of C & D relative to the wedges A and B respectively, choose the right relation. (directions of a_(1), a_(2), b_(1) & b_(2) are shown in figure below) :

In the adjacent figure, all the pulleys are frictioniess and massless, all the stringes are also massless. The relation between a_(1),a_(2) and a_(3) is (where a_(1),a_(2) and a_(3) are the acceleration of masses m_(1),m_(2) and m_(3) respectively in the direction as shown in the figure)

A deuteron and an alpha -particle are placed in an electric field.The forces acting on them are F_(1) and F_(2) and their accelerations are a_(1) and a_(2) respectively. (i) F_(1) = F_(2) (ii) F_(1) != F_(2) (iii) a_(1) = a_(2) (iv) a_(1) != a_(2)

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

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

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