In the fig. `m_(2) gt m_(1)`. Pulley and string and massless and Pulley is smooth. The system is released from rest. After 2 seconds of motion `m_(2)` was held with the hand.

The pulley is light and smooth : the strings are inextensible and light. The system is released from rest, find the acceleration of each block, tensions in the strings and reaction in pulley.

Whole system shown is at rest. Pulley and string are massless. Net force on the pulley by the string is?

Two unequal masses are connected on two sides of a light and smooth pulley as shown in figure. The system is released from rest. The larger mass is stopped 1.0 second after the system is set into motion and then released immediately. The time elapsed before the string is tight again is: Take g=10m//s^(2)

Let m_(1) =1kg, m_(2) =2kg and m_(3) =3kg in figure (5-E12).Find the accelerations of m_(1) , m_(2) and m_(3) .The string from the upper pulley to m_(1) is 20cm when the system is released from rest.How long will it take before m_(1) strikes the pulley?

In fig. both pulleys and the string are massless and all the surfaces are frictionless. Given m_(1)=1kg, m_(2)= 2kg, m_(3)=3kg . The acceleration of m_(1) is

In fig. both pulleys and the string are massless and all the surfaces are frictionless. Given m_(1)=1kg, m_(2)= 2kg, m_(3)=3kg . The acceleration of m_(3) is

Figure-2.64 shows a block of mass M supporting a bar of mass m through a pulley system. If system is released from rest, find the acceleration of block M and the tension in the strings

In the figure, the massless and inextensible thread does not slip on the pulley. It is wound over pulley as shown. If the system is released from rest,

In fig. both pulleys and the string are massless and all the surfaces are frictionless. Given m_(1)=1kg, m_(2)= 2kg, m_(3)=3kg . Find the tension in the string