Two blocks are arranged as shown in figure. Find the ratio of `a_(1)//a_(2)`. (`a_(1)` is acceleration of `m_(1)` and `a_(2)` that of `m_(2))`

If the blocks are moving as shown in the figure the relation between a_(1) , a_(2) and a_(3) will be.

In the pulley-block arrangement shown in figure , find the relation between a_(A),a_(B) and a_(C)

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

A pulley-block arrangement is shown in the adjacent figure, if acceleration of m_(1), m_(2) and m_(3) are a_(1) ,a_(2) and a_(3) respectively, then relation between a_(1),a_(2) and a_(3) is ( All string and pulleys are ideal . )

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

Two blocks of masses m_(1) and m_(2) are connected by massless threads. The pulleys are massless and smooth if a_(1) is the magnitude value of acceleration of m_(1) and a_(2) is the magnitude value of acceleration of m_(2) find the ratio of a_(1)/a_(2)

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)

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

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_(1) at the moment string RS is cut is