In the given arrangement shown in figure, surface is frictionless, string is inextensible and massless, pulley `B` is frictionless. Length of the string is `l`. At `t=0`, `AB=l`. Find out the velocity of block `C`, when distance between blocks is minimum, it is was released from rest at `t=0`.

In the system shown in the given figure, the inline is frictionless, the string is massless, and inextensible pulley is light and frictionless. The system is released from rest.

In the arrangement , shown below pulleys are massless and frictionless and threads are inextensible , block of mass m_(1) will remain at rest if

In the system shown in figure, the block A is released from rest. Find Tension in the string.

In the system shown in figure all surfaces are smooth. Strings is massless and inextensible.Find acceleration of the system and tension T in the string (g=10m//s^(2))

In the arrangement shown in figure, m_A = m_B = 2kg. String is massless and pulley is frictionless. Block B is resting on a smooth horizontal surface, while friction coefficient beteen block A and B is mu=0.5 . the Maximum horizontal force F that can be applied so that block A does not slip over block B is.

find the acceleration of the block of mass M in the situation shown in figure. All the surfaces are frictionless and the pulleys and the string are light.

In the given figurethe wedge is fixed, pulley is frictionless and string is light. Surface AB is frictionless whereas AC is rough. If the block of mass 3m. Slides down. With conttant velocity, then the coefficient of friction between surface AC and the block is

In the shown arrangement , both pulleys and the string are massless and all the surface are frictionless. Find the acceleration of the wedge.

In the arrangement shown in figure, the string are light and intextensible. The surface over which blocks are placed is smooth. Find (a) the accelrations of the block (b) the tension in each string.