In the arrangement show in figure, the track is frictionless until the body reaches the higher level. A frictional force stops the body in a distance d from A. The initial speed of the body `v_(0)` is 6 m/s the height h is 1 m and the coefficient of kinetic friction is 0.2.

What is the work done by friction force on the body during the motion.

In the arrangement show in figure, the track is frictionless until the body reaches the higher level. A frictional force stops the body in a distance d from A. The initial speed of the body v_(0) is 6 m/s the height h is 1 m and the coefficient of kinetic friction is 0.2. The speed of body at the higher level A is

In the figure, a block slides along a track from one level to a higher level, by inoving through an intermediate valley. The track is frictionless untill the block reaches the higher level. There a frictional force stops the block in a distance d. The block's initial speed v_(0) is 8 m/s, the height difference h is 2 m and the coefficient of kinetic friction mu is 0.3. The value of d is

In figure-3.13, a block slides along a track from one level to a higher level, by moving through an intermediate valley. The track is frictionless until the block reaches the higher level. There a frictional force stops the block in a distance d. The block's initial speed v_(0) is 6 m//s the height difference h is 1.1 m and the coefficient of kinetic friction mu is 0.6 find d. Take g=10m//s^(2)

Figure, a block slides along a track from one level to a higher level by moving through an intermediate valley. The track is friction less until the block reaches the higher level. Then there is friction force which stops the block at a distance d. The block's initial speed v_0 is 6.0ms^-1 , the height difference h is 1.1m , and the coefficient of kinetic friction mu is 0.60 . Find d .

A body of 10 kg is acted by a force of 129.4 N if g=9.8m//sec^2 . The acceleration of the block is 10m//s^(2) . What is the coefficient of kinetic friction

If a body has kinetic energy. T, moving on a rough horizontal surface stops at distance y. The frictional force exerted on the body is

A body of mass m rests on a horizontal rough platform. Coefficient of static friction is u. Calculate the minimum possible force required to move the body along the platform.

On a rough horizontal surface, a body of mass 2 kg is given a velocity of 10 m / s . If the coefficient of friction is 0.2 and g=10m//s^(2) , the body will stop after covering a distance of

A body of mass 0.5 kg is taken up an inclined plane of length 10 m and height 5 m and then allowed to slide down to the bottom again. The coefficient of friction between the body and the plane is 0.1. The work done by the frictional force over the round trip is

A body of mass m is pushed with the initial velocity v_(0) up an inclined plane of angle of inclination theta . The co-efficient or friction between the body and the plane is mu . What is the net work done by fnction during the ascent of the body before it comes to stop ?