A thin, uniform chain is hanging vertically and its bottom end is touching a table . The mass of the chain is m and its length is l . At the moment t=0, the chain is released. Calculate the force that the chain exerts on the table after t seconds.

Consider a uniform chain of mass m and length L , the chain is released when hanging length is L_0 . Find the speed with which the chain leaves the table.

A very flexible cahin of length L and mass M is vertically suspended with its lower end just touching the table. If it is released so that each link strickes the table and comes to rest. What force the chain will exert on the table at the moment y part of lenght falls on the table ? .

A chain of length L is supported at one end and is hanging vertically when it is released. All of the chain falls freely with acceleration g. The moment, the chain is released a ball is projected up with speed u from a point 2 L below the point of support. Find the interval of time in which the ball will cross through the entire chain.

A uniform chain of length l begins to fall with a velocity v on the table. Find the thrust force exerted by the chain on the table.

A very flexible uniform chain of mass M and length L is suspended vertically so that its lower and just touches the surface of a table. When the upper end of the chain is released it falls with each link coming to rest the instant it strikes the table. Find the force exerted by the chain on the table at the moment when y part of the chain has already rested on the table.

A very flexible uniform chain of mass M and length l is suspended vertically in a lift so that its lower end is just touching the surface of the floor. When the upper end of the chain is released, it falls with each link coming to rest the instant it strikes the floor of the lift.Find the force exerted by the floor of the lift on the chain at the moment, when one fourth of the chain has already rested on the floor. Assume that lift is moving up with an acceleration g/2.

A uniform chain of length L and mass M is tying on a smoth table and one third of its length is banging vertically down table the edge of the table if g is acceleration the to gravity , the work required to pull the hanging part on the table is