Determine the coefficient of friction ( `mu` ) ,so that rope of mass m and length ldoes not slide down.

A block of mass M rests on an inclined plane. If the coefficient of friction between the block and the plane is mu , then the block will slide down the plane under its own weight when the angle of inclination is

A block of mass M rests on an inclined plane. If the coefficient of friction between the block and the plane is mu then the block will slide down the plane under its own weight the angle of inclination is

A uniform rope of length L lies on a table. If the coefficient of friction is mu , the maximum fractional length of the hanging part of the rope from the edge of the table without sliding down is

When a body slides down an inclined plane with coefficient of friction as mu_(k) , then its acceleration is given by .

When a body slides down an inclined plane with coefficient of friction as mu_(k) , then its acceleration is given by .

A uniform rope of length l lies on a table . If the coefficient of friction is mu , then the maximum length l_(1) of the part of this rope which can overhang from the edge of the table without sliding down is :

A uniform rope of length l lies on a table. If the coefficient of friction is mu , then the maximum length L of the part of this rope which can overhang from the edge of the table without sliding down is

A small mass slides down an inclined plane of inclination theta with the horizontal the coefficient of friction is mu = mu_(0)x , where x is the distance through which the mass slides down. Then the distance covered by the mass before it stops is