A4 kg blocks A is plced on the top of 8 kg block B which rests on a smoth table .A just slips on B when a force of 12 N is applied on B to make Both A and B move together is (4x) N Find the value of x.

A 4 kg block A is placed on the top of 8 kg block B which rests on a smooth table. A just slips on B when a force of 12 N is applied on A. Then the maximum horizontal force F applied on B to make both A and B move together, is

12N of force required to be applied on A to slip on B. Find the maximum horizontal force F to be applied on B so that A and B moves together.

A 5 kg block is placed on the top of a 15 kg block as shown in figure . A horizontal force of 60 N is applied to the 15 kg block and the 5kg block is tied to the wall . The coefficient of friction between moving surfaces is 0.2 (a) Draw the free body diagram for each block w.r.t ground and identify the action reaction forces between two blocks . (b) Determine the tension in the string and magnitude of the acceleration of the 15 kg block .

A 4.0 kg block is put on top of a 5.0kg block. In order to cause the top block to slip on the bottom one, a horizontal force of 12N must be applied to the top block. Assuming a friction less table the maximum horizontal force F which can be applied to the lower block so that the blocks, will move together should be

A block the of mass 4kg is placed on another block of mass 5kg and the block B rests on a smooth horizontal table for sliding the block A on B a horizontal force 12N is required to be applied force on it How much maximum horizontal force can be applied on 'B' s that both A and B move together? Also find out the accleration proudced by this force .

A small block B is placed on another block A of mass 5 kg and length 20 cm. Initially, the block B is near the right end of block A. A constant horizontal force of 10 N is applied to the block A. All the surfaces are assumed frictionless. Find the time elapsed before the block B separates from A.