A body is moving up an inclined plane of angle `theta` with an initial kinetic energy E. The coefficient of friction between the plane and body is `mu`. The work done against friction before the body comes to rest is

The work done by kinetic friction on a body :

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 ?

A block is stationary on an inclined plane If the coefficient of friction between the block and the plane is mu then .

A block of mass m slides from the top of an inclined plane of angle of inclination theta & length l . The coefficient of friction between the plane and the block is mu . Then it is observed over a distance d along the horizontal surface having the same coefficient of friction mu , before it comes to a stop. Find the value of d.

A body is moving down a long inclined plane of angle of inclination theta . The coefficient of friction between the body and the plane varies as mu - 0.1 x , where x is the distance moved down the plane. The body will have the maximum velocity when it has travelled a distance x given by :

A body is moving down along inclined plane of angle of inclination theta The coefficient of friction between the body and the plane varies as mu=0.5x where x is the distance moved down the plane. The body will have the maximum velocity when

The work done by a body against friction always results in

A body is sliding down an inclined plane forming an angle 30^(@) with the horizantal. If the coefficient of friction is 0.3 then acceleration of the body is