In the fig. as shown mass of each block is same. The surface are rough with coefficient of friction `mu`. The block `B` moves with acceleration `a`. The frictional force on the block `C` is `kxxmu ma`. Calculate the value of `K`

A block of height h is projected along a rough surface of coefficient of friction mu . Find the point of application of the normal force on the block for mu_(k) = 0.5 .

A block of mass 6 kg is being pulled by force 24 N as shown . If coefficient of friction between the block and the surface is 0.6 , frictional force acting on the block is :

If coefficient of friction between both the block is mu- (1)/(2) . Find friction force acting between both block.

A block of mass m sides down an inclined right angled trough .If the coefficient of friction between block and the trough is mu_(k) acceleration of the block down the plane is

A block of mass M is sliding down the plane. Coefficient of static friction is mu_(s) and kinetic friction is mu_(k) . Then friction force acting on the block is :

In the arrangement shown in figure coefficient of friction between 5kg block and incline plane is mu=0.5 . Friction force acting on the 5kg block is

On a table three blocks (including the first block) are placed as shown in the figure. Mass of each block is m and coefficient of friction for each block is mu . A force F is applied on the block so as to move the system. The minimum value of F should be

A force of 100N is applied on a block of mass 3kg as shown in the figure. The coefficient of friction between the surface and the block is mu=(1)/(sqrt(3) . The friction force acting on the bock is.

A block of mass 1 kg lies on a horizontal surface in a truck. The coefficient of static friction between the block and the surface is 0.6. If the acceleration of the truck is 5m//s^2 , the frictional force acting on the block is…………newtons.

A block is sliding on a rough horizontal surface. If the contact force on the block is sqrt2 times the frictional force, the coefficient of friction is