Consider and ideal gas at same temperature, separated initially as shown below in the diagram

When the valve is opened, the equilibrium pressure is found to be `20//7` atmosphere. What was the initial pessure in the smaller flask?

The figure given below shows three glass chambers that are connected by valves of negligible volume. At the outset of an experiment, the valves are closed and the chambers contain the gases as detailed in the diagram. All the chambers are at the temperature of 300 K and external pressure of 1.0 atm . What is the total pressure in chamber B after valve 1 is opened?

Two tanks are connected by a valve. One tank contains 2 kg of an ideal gas at 77^(@)C and 0.7 atm pressure. The other tank has 8kg of same gas at 27^(@)C and 1.2 atm pressure. The valve is opened and the gases are allowed to mix. The final equilibrium temperature was found to be 42^(@)C . (a) Find the equilibrium pressure in both tanks. (b) How much heat was transferred from surrounding to the tanks during the mixing process. Given: C_(v) for the gas is 0.745 KJ kg^(-1) K^(-1) .

When the temperature of a gas in a metal is incrased from 27^(@)C to 87^(@)C the initial pressure of 2 atmospheres changes to

When a gas filled in a closed vessel is heated through 2^(@)C , its pressure increases by 0.4%. What is the initial temperature of gas ?

When 4 g of an ideal gas A is introduced into an evacuated flask kept at 25^(@)C , the pressure is found to be one atmosphere. If 6 g of another ideal gas B is then added to the same flask, the pressure becomes 2 atm at same temperature. The ratio of molecular weights (M_(A) : M_(B)) of the two gases would be