In the figure shown, pulley and spring are ideal and strings are lilght and inextensible. Intially all the bodies are at rest when string connecting `A` and `B` is cut. Find initial acceleration of `C`.

In the arrangement shown, all the surface are smooth, strings and pulleys are light. Find the tension in the string.

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

In the arrangement shown in fig. The strings are light and inextensible. The surface over which blocks are placed is smooth. Find: (a) the acceleration of each block. (b) the tension in each string.

In the arrangement shown, the pulleys and strings are massless. The acceleration of block B is :

In the arrangement shown, the pulleys, string and the spring balance, all the ideal. If m_(1) gt m_(2) , then the reading of the spring balance is

Figure shows three blocks of mass m each hanging on a string passing over a pulley. Calculate the tension in the string connecting A to B and B to C?

If the string & all the pulleys are ideal, acceleration of mass m is :-

In the system shown in figure all surface are smooth, string in massless and inextensible. Find: (a) acceleration of the system (b) tensionin the string and (c ) tension in the spring if force constant of spring is k = 50 N/m (Take g = 10 m//s^(2) )

Three weights are hanging over a smooth fixed pulley as shown in the figure. What is the tension in the string connecting weights B and C ?

An arrangement of the masses and pulleys is shown in the figure. Strings connecting masses A and B with pulley are horizontal and all pulleys and strings are light. Friction coefficient between the surface and the block B is 0.2 and between block A and B is 0.7 . The system is released from rest. (use g=10m//s^(2))