In the system shown in fig., `m_(A)=4m`, `m_(B)=3m`, and `m_(c)=8m`. Friction is absent everywhere. String is inextensible and light. If the system is released from rest, then

Acceleration of Block B is

In the system shown in fig., m_(A)=4m , m_(B)=3m , and m_(c)=8m . Friction is absent everywhere. String is inextensible and light. If the system is released from rest, then Acceleration of block C is

In the system shown in fig., m_(A)=4m , m_(B)=3m , and m_(c)=8m . Friction is absent everywhere. String is inextensible and light. If the system is released from rest, then Acceleration of Block A in horizontal direction is

In the system shown in fig., all pulleys are mass less and the string is inextensible and light. (a) After the system is released, find the acceleration of mass m_(1) (b) If m_(1) = 1 kg, m_(2) = 2 kg "and" m_(3) = 3 kg then what must be value of mass m_(4) so that it accelerates downwards?

In the system shown in figure m_(B)=4kg , and m_(A)=2kg . The pulleys are massless and friction is absent everywhere. The acceleration of block A is.

In the arrangement shown in the figure (m_(A))/(m_(B))=(2)/(3) and the ratio of density of block B and the liquid is 2:1 The system is released from rest. Then

In the arrangement shown in the figure (m_(A))/(m_(B))=(2)/(3) and the ratio of density of block B and the liquid is 2:1 The system is released from rest. Then

In the arrangement shown in the fig. all pulleys are mass less and the strings are inextensible and light. Block A has mass M. (a) If the system stays at rest after it is released, find the mass of the block B. (b) If mass of the block B is twice the value found in part (a) of the problem, calculate the acceleration of block A.

Figure-2.54 shows a block of mass m is placed on an inclined wedge of mass M If the system is released from rest find the acceleration of m and M.

Two blocks A and B are arranged as shown in figure.The pulleys are light and frictionless.The strings are light and inextensible.If the acceleration of the block B is 3m/s^(2) ,then the acceleration of the block A is __________ m/s^(2)