A body which was released from rest, slides down on an inclined plane of inclination `theta`. The coefficient of friction dowh the plane varies as `mu = kx` where k is a spositive constant and x is the distance moved by the body down the plane. The speed of the body 'v' versus distance 'x' graph will be as :

A body is sliding down a rough inclined plane of angle of inclination theta for which the coefficient of friction varies with distance x as mu (x) = kx, where k is a constant. Here x is the distance moved by the body down the plane. The net force on the body will be zero at a distance x_(0) given by :

A body is moving down a long inclined plane of angle of inclination 'theta ' for which the coefficient of friction varies with distance x as mu (x) = kx , where k is a constant . Here x is the distance moved by the body down the plane . The net force on the body will be zero at a distance x_(0) is 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

A body is moving down a long inclined plane of inclination 45^(@) with horizontal. The coefficient of friciton between the body and the plane varies as mu = x//2 , where x is the distance moved down the plane. Initially x=0 & v=0

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 q. 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 it has travelled a distance x given by

A body is moving down a long inclined plane in inclination 45^(@) with horizontal. The coefficient of friction between the body and the plane varies as mu=x//2 , where x is the distance moved down the plane. Initially x=0 & v=0 .

When a body of mass M slides down an inclined plane of inclination theta , having coefficient of friction mu through a distance s, the work done against friction is :

When a body of mass M slides down an inclined plane of inclination theta , having coefficient of friction mu through a distance s, the work done against friction is :