A uniform chain of mass per unit length `lambda` is sliding down the hill with constant speed u. Dimension of the hill are h and d as shown. Find the momentum of the chain at the instant shown. (given `lambda=1kg//m, d=3m, h=4m, and u=1m//s`)

A uniform chain of mass m and length l is placed on a smooth table so that one - third length hanges freely as shown in the figure. Now the chain is released, with what velocity chain slips off the table?

A uniform chain of mass M and length L is lying on a frictionless table in such a way that its 1//3 parts is hanging vertically down. The work done in pulling the chain up the table is

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.

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 uniform chain of mass m_0 and length l rests on a rough incline with its part hanging vertically as shown in the fig. The chain starts sliding up the incline (and hanging part moving down) provided the hanging part equals eta times the chain length ( eta lt 1). What is the work performed by the friction force by the time chain slides completely off the incline. Neglect the dimension of pulley and assume it to be smooth.

A chain of mass m and length l lies on a horizontal table. The chain is allowed to slide down gently from the side of the table. Find the speed of the chain at the instant when last link of the chain slides from the table. Neglect friction everywhere. (a) the force from thelicopter and (b) the gravitational force on her (c ) What are speed ot the kinetic energy and. (d) the speed of the astronaut just before she reaches the helicopter?

A uniform chain of mass 4 kg and length 2 m is kept on table such that 3//10^("th") of the chain hanges freely from the edge of the table. How much work has to be done in pulling the entire chain on the table?

A uniform chain of mass 4 kg and legth 2 m overhags a smooth table with its one third part lying on the table Find the speed of chain as it c ompletely slips of the table. (Take g=10m//s^(2) )

Four point masses lie at the corners of a rectangle with sides of length 3 m and 4 m ., as shown in figure . Find the moment of inertia about of the diagonals . Take M = 1 kg .

A uniform rod of mass m=2kg and length l=0.5m is sliding along two mutually perpendicular smooth walls with the two ends P and Q having velocities U_(P)=4m//s and v_(Q)=3m//s as shown then