In the figure shown, there is no relative motion between the two blokcs. Force of friction acting on 1 kg block is

The frictional force acting on 1 kg block is

In the figure shown, the force of friction between A and B will be :

A force barF=hati+4hatj acts on block shown. The force of friction acting on the block is :

Two blocks of masses 'M' and 'm' are placed on one another on a smooth horizontal surface as shown in the figure. The force 'F' is acting on the mass 'M' horizontally during time interval 't'. Assumings no relative sliding between the blocks, The work done by friction on the blocks is

Block 'A' is placed ober the block 'B' as shown in the figure. Wedge is fixed and there is no friction. Between block 'B' and fixed inclined. Force of friction on the block 'A' is

A plank of mass 10 kg and a block of mass 2 kg are placed on a horizontal plane as shown in the figure. There is no friction between plane and plank. The coefficient of friction between block and plank is 0.5 .A force of 60 N is applied on plank horizontally. In first 2 s the work done by friction on the block is

coefficient of friction between two blocks shown in figure is mu =0.6 . The blocks are given velocities in the direction shown in figure. Find (a) the time when relative motion between them is stopped. (b) the common velocity of the two blocks. (c) the displacement of 1kg and 2kg blocks upto that instant. (Take g =10m//s^(2))

A block of mass 1 kg is placed on a truck which accelerates with acceleration 5ms^(-2) . The coefficient of static friction between the block and truck is 0.6. The frictional force acting on the block is

A block of mass m is placed on the block of mass M as shown in figure. The horizontal force vecF acts on M during time interval t. If the horizontal surface is smooth, assuming no relative sliding between the blocks, find the a. work done by friction on the blocks b. work done by vecF on the lower block

In the three figure shown, find acceleration of block and force of friction on it in each case.