In the system shown, pulley and strings are ideal. The vertically upward pull F is being increased gradually, find magnitude F and acceleration of the 5 kg block at the moment the 10 kg block leves the floor.

The acceleration of 10 kg block when F = 30 N is

The acceleration of the 10 kg mass block shown in the figure is : -

In the shown mass pulley system, pulleys and string are massless. The one end of the string is pulleed by the force F=2mg . The acceleration of the block will be

In the shown mass pulley system, pulleys and string are massless. The one end of the string is pulleed by the force F=2mg . The acceleration of the block will be

In the diagram shown in figure, both pulleys and strings are massless. The acceleration of 2 kg block is

Consider the situation shown in figure. All the surfaces are frictions and the string and the pulley are light. Find the magnitude of the acceleration of the two blocks.

The acceleration of the 2 kg block if the free end of string is pulled with a force of 20 N as shown is

The pulley shown in figure has a moment of inertia I about it's axis and its radius is R. Find the magnitude of the acceleration of the two blocks. Assume that the string is light and does not slip on the pulley.

A block is being pulled by a force F on a long frictionless level floor. Magnitude of the force is gradually increases from zero until the block lifts off the floor. Immediately before the block leaves the floor, its acceleration is

Figure shows a block A constrained to slide along the inclined plane of the wedge B shown. Block A is attached with a string which passes through three ideal pulleys and connected to the wedge B. If wedge is pulled toward right with an acceleration a, find (a) the acceleration of the block with respect to wedge (b) the acceleration of the block with respect to ground.