A long chain of mass of mass `M` length `L` is being pulled with constant velocity on a rough incline with coefficient of friction `mu`. What rate frictional force on chain is increasing

A uniform chain of mass m and length I is kept on the table with a part of it overhanging (see figure). If the coefficient of friction between the table and the chain is 1//3 then find the maximum length of the chain that can overhang such that the chain remain in equilibrium.

A uniform chain of mass m and length I is kept on the table with a part of it overhanging (see figure). If the coefficient of friction between the table and the chain is 1//3 then find the maximum length of the chain that can overhang such that the chain remain in equilibrium.

A body of mass m is placed on a rough surface with coefficient of friction mu inclined at theta . If the mass is in equilibrium , then

A body of mass m is placed on a rough surface with coefficient of friction mu inclined at theta . If the mass is in equilibrium , then

A body of mass m is placed on a rough surface with coefficient of friction mu inclined at theta . If the mass is in equilibrium , then

A block of mass 'm' is pulled by a constant power 'p' placed on a rough horizontal plane . The coefficient of friction between the block and the surface is mu . Maximum velocity of the block will be

A metal block of mass m is placed on a smooth metallic plane in support with string as shown in diagram. If after long time due to corrosiom, the contact surface becomes rough with coefficient of friction mu , then friction force acting on the block will be :

A heavy chain with a mass per unite length p is pulled by the constant force F along a horizental surface consisting of a smooth section and a rough section. The chain is initially at rest on the rough surface with x = 0 . If the coefficient of kinetic friction between the chain and the rough surface is mu_(k) determine the velocity v of the chain when x = L . The force F is hreater than mu_(k) ogL in under to initate the motion ,

A heavy chain with a mass per unite length p is pulled by the constant force F along a horizental surface consisting of a smooth section and a rough section. The chain is initially at rest on the rough surface with x = 0 . If the coefficient of kinetic friction between the chain and the rough surface is mu_(k) determine the velocity v of the chain when x = L . The force F is hreater than mu_(k) ogL in under to initate the motion ,