Two blocks (from very far apart) are approaching towards each other with velocities as shown in figure. The coefficient of friction for the blocks is `mu=0.2`.

How much distance will centre of mass travel before coming permanently to rest.

Two blocks (from very far apart) are approaching towards each other with velocities as shown in figure. The coefficient of friction for the blocks is mu=0.2 . Linear momentum of the system is

Two blocks (from very far apart) are approaching towards each other with velocities as shown in figure. The coefficient of friction for the blocks is mu=0.2 . Linear momentum of the system is

In the arrangement shown in figure, coefficient of friction between the two blocks is mu=1//2 . The force of friction acting between

Blocks A and B each of mass 1kg are moving with 4m//s and 2m//s respectively as shown. The coefficient of friction for all surface is 0.10 . Find the distance (in m) by which centre of mass will travell before coming to rest. Assume large distance between the blocks

Blocks A and B each of mass 1kg are moving with 4m//s and 2m//s respectively as shown. The coefficient of friction for all surface is 0.10 . Find the distance (in m) by which centre of mass will travell before coming to rest. Assume large distance between the blocks

A block placed on a rough harizontal surface is imparted a velocity of 10 m/s. the coefficient of kinetic friction between the block and the surface is 0.5 and g= 10m//s^2 . How much distance the block will cover, before coming to rest?

For the arrangement shown in the figure the coefficient of friction between the two blocks is mu . If both the blocks are identical and moving ,then the acceleration of each block is

For the arrangement shown in the figure the coefficient of friction between the two blocks is mu . If both the blocks are identical and moving ,then the acceleration of each block is

A block A slides over an another block B which is placed over a smooth inclined plane as shown in figure . The coefficient of friction between the two blocks A and B is mu . Mass of block B is two times the mass of block A . The acceleration of the centre of mass of two blocks is