The rectangular box shown in Fig has partition which can slide without friction along the length of the box. Initially each of the two chambers of the box has one mole of a mono-atomic ideal gas `(lambda=5//3)` at a pressure `P_0`, volume `V_0` and temperature `T_0`. The chamber on the left is slowly heated by an electric heater. The walls of the box and the lead wires of the heater is negligible. The gas in the left chamber expands pushing the partition until the final pressure in both chambers becomes `243P_0//32`. Determine (i) the final temperature of the gas in each chamber and (ii) the work done by the gas in the right chamber.

A rectangualr box (shown in figure) has a movable and smooth portition which can slide along the length of the box. Both chambers contains 1 mole of monoatomic gas ( gamma=(5)/(3) ) at a pressure walls of box and partition are thermally insulated. Due to heating, gas in left chamber expands until pressure in both chambers become 32P_(0) determine (a) The final temperature of gas in each chamber (b) The work done by the gas in the right chamber.

A rectangular box has a volume 48 and the sum of the length of the twelves edges of the box is 48. The largest integer that can be the length of the box is

A sample of gas in a box is at pressure P_0 and temperature T_0 . If number of molecules is doubled and total kinetic energy of the gas is kept constant, then final temperature and pressure will be

An ideal gas is at pressure P and temerature T in a box, which is kept in vaccum with in a large container. The wall of the box is punctured. What happens as the gas occupies entire container?

A thermally insulating cylinder has a thermally insulating and frictionless movable partition in the middle, as shown in the figure below. On each side of the partition, there is one mole of an ideal gas , with specific heat at constant volume, C_v=2R . Here, R is the gas constant. Initially, each side has a volume V_0 and temperature T_0 . The left side has an electric heater, which is turned on at very low power to transfer heat Q to the gas on the left side. As a result the partition moves slowly towards the right reducing the right side volume to V_0/2 . Consequently, the gas temperature on the left and the right sides become T_L and T_R , respectively. Ignore the changes in the temperatures of the cylinder, heater and the partition. Value of T_R/T_0

One mole of a monoatomic ideal gas occupies two champers of a cylinder partioned by means of a movable pision. The walls of the cylinder as well as the piston are thermal insulators. Initially equal amounts of gas fill both the chambers at ( P_(0), V_(0), T_(0) ). A coil is burnt in the left chamber which absorbs heat and expands , pushing the piston to the right . The gas on the right chamber is compressed until to pressure becomes 32 P_(0) . The work done on the gas in the right chamber is

Consider a black body radiation in a cubical box at absolute temperature T. If the lengh of each side of the box is doubled and the temperature of the walls of the box and that of the radiation is halved then the total energy

An exhausted chamber with nonconducting walls is connected through a valve to the atmosphere where the pressure is p_0 and the temperature is T_0 .The valve is openeds lightly and air flows into the chamber until the pressure with in the chamber is p_0 .Assuming the air to be have like an ideal gas with constant heat capacities, the final temperature of the air in the chamber is

A mixture of ideal gas containing 5 moles of monatomic gas and 1 mole of rigid diatomic gas is initially at pressure P_0 volume V_0 and temperature T_0 . If the gas mixture is adiabatically compressed to a volume V_0//4 , then the correct statement(s) is(are) : (Given R is gas constant)