A rope of length `l` and mass 'm' is connected to a chain of length `l` and mass `2 m` and hung vertically as shown. What is the change in graviational potential energy if the system is inverted and hung from same point.
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A rod of length L and mass m is kept vertically on the ground. Its potential energy is :

A uniform chain of mass m and length l is lying on a horizontal table with one-third of its length hanging over the edge of the table. If a gentle push is given to hanging end, it will start moving down. What is the change in gravitational potential energy of the chain, as it just leaves the table?

A thin of length L is bent to form a semicircle. The mass of rod is M. What will be the gravitational potential at the centre of the circle ?

Two uniform thin rods each of length L and mass m are joined as shown in the figure. Find the distance of centre of mass the system from point O

The moment of inertia of a system of four rods each of length l and mass m about the axis shown is

A stick of mass m and length l is pivoted at one end and is displaced through an angle theta. The increase in potential energy is

A rope of length L and mass m hangs freely from the ceiling. The velocity of transverse wave as a function of position x-along the rope is proportional to

A uniform rod of length l and mass m is hung from, strings of equal length from a ceiling as shown in figure. Determine the tensions in the strings?

Two beads of mass 2m and m , connected by a rod of length l and of negligible mass are free to move in a smooth vertical circular wire frame of radius l as shown. Initially the system is held in horizontal position ( Refer figure ) If the rod is replaced by a massless string of length l and the system is released when the string is horizontal then :