An horizontal insulated cylindrical vessel of length 2l is separated by a thin insulating piston into two equal parts as shown. Each part contains n moles of an ideal monoatomic gas at temperature T. The piston is connected to end faces of cylinder with help of two springs each of spring constank k. Initially both springs are in relaxed state. The temperature of left part of cylinder is kept constant by some external means while heat is supplied to right part with help of filament. Answer following questions.
temperature of gas in right part in final equilibrium is

An horizontal insulated cylindrical vessel of length 2l is separated by a thin insulating piston into two equal parts as shown. Each part contains n moles of an ideal monoatomic gas at temperature T. The piston is connected to end faces of cylinder with help of two springs each of spring constank k. Initially both springs are in relaxed state. The temperature of left part of cylinder is kept constant by some external means while heat is supplied to right part with help of filament. Answer following questions. If energy Q is supplied to right part so that the piston moves to left by l/4 then change in internal energy of right part of cylinder is

An horizontal insulated cylindrical vessel of length 2l is separated by a thin insulating piston into two equal parts as shown. Each part contains n moles of an ideal monoatomic gas at temperature T. The piston is connected to end faces of cylinder with help of two springs each of spring constank k. Initially both springs are in relaxed state. The temperature of left part of cylinder is kept constant by some external means while heat is supplied to right part with help of filament. Answer following questions. heat given by left part of cylinder to external arrangement is

A spring of spring constant k is cut in three equal pieces. The spring constant of each part will be

A cylindrical vessel made of thermally insulating material is divided into two equal parts by an insulating and. Movable piston. Both parts contain ideal monoatomic gas . The gas in the left part is supplied heat such that the volume of right part becomes one-eight of its initial volume . Work done by the gas in the right part is

A spring having a spring constant k is divded into three parts. Calculate the force constant for each part.

A spring of force constant k and natural length 6l is broken in three parts of length ratio 1:2:3 find the spring constant of each part.

A spring of force constant k is cut into there equal part what is force constant of each part ?

The system shown in figure consists of three springs and two rods as shown. If the temperature of the rods is increased by delta(t) calculate the energy stored in each of the springs. The springs are initially relaxed. There is no friction.