As shown in fig, if acceleration of M with respect to ground is `2ms^(-2)`, then

As shown in the figure, if acceleration of M with respect to ground is 5m//s^(2) , then :

In the adjoining figure if acceleration of M with respect to ground is a then

Three blocks are kept as shown in figure Acceleration of 20 kg block with respect to ground is

A block of mass m=5kg is placed on the wedge of mass M=32kg as shown in the figure. Find the acceleration of wedge with respect to ground. (Neglect any type of friction. Spring and pulley are ideal)

For the system as shown in fig. find the acceleration of C. the accelerations of A and B with respect to ground are marked.

In the arrangement shown in fig., if the acceleration of B is vec(a) . Then find the acceleration of A.

The fricition coefficient between the table and block shown in fig. is 0.2 find the acceleration of the system (Take g=10 m//s^(2) )

A system is as shown in the figure. All speeds shown are with respect to ground. Then the speed of Block B with respect to ground is :

Block A of mass m//2 is connected to one end of light rope which passes over a pulley as shown in fig. A man of mass m climbs the other end of rope with a relative acceleration of g//6 with respect to rope. Find the acceleration of block A and tension in the rope.

Three blocks A, B, and C of masses 3M, 2M , and M are suspended vertically with the help of spring PQ and TU, and a string RS as shown in fig. If the acceleration of blocks A, B and C is a_(1), a_(2) and a_(3) , respectively, then The value of acceleration a_(2) at the moment spring TU is cut is