A container is divided into two compartments. One compartment contains 2 moles of `N_(2)` gas at 1 atm and 300 K and other compartment contains `H_(2)` gas at the same temperature and pressure. Volume of `H_(2)` compartment is four times the volume of `N_(2)` compartment [Assuming no reaction under these conditions]
Calculate the final total pressure if partition between two compartments is removed.

A container is divided into two compartments. One compartment contains 2 moles of N_(2) gas at 1 atm and 300 K and other compartment contains H_(2) gas at the same temperature and pressure. Volume of H_(2) compartment is four times the volume of N_(2) compartment [Assuming no reaction under these conditions] If the container containing N_(2) and H_(2) are further heated to 1000 K, forming NH_(3) with 100% yeild calculate the final total pressure.

A container is divided into two compartments by a removable partition as shown below : In the first compartment n_1 moles of ideal gas He is present in a volume V_1 . In the second compartment, n_2 moles of ideal gas Ne is present in a volume V_2 . The temperature and pressure in both the compartments are T and P repectively. Assuming R is the gas constant. the total change is entropy upon removing the partition when the gases mix irreversibly is :

A rigid and insulated tank of 3m^(3) volume is divided into two compartments. One compartment of volume of 2m^(3) contains an ideal gas at 0.8314 Mpa and 400 K while the second compartment of volume of 1m^(3) contains the same gas at 8.314 Mpa and 500 K. If the partition between the two compartments is rptured, the final temperature of the gas is :

A rigid and insulated tank of 3m^(3) volume is divided into two compartments. One second compartment of volume of 2m^(3) contains an ideal gas at 0.8314 Mpa and 400K and while the second compartment of volume 1m^(3) contains the same gas at 8.314 MPa and 500K. If the partition between the two compartments isruptured. the final temperature of the gas is:

A rigid and insulated tank of 3m^(3) volume is divided into two compartments. One compartment of volume of 2m^(3) contains an ideal gas at 0.8314 Mpa and 400 K while the second compartment of volume of 1m^(3) contains the same gas at 8.314 Mpa and 500 K. If the partition between the two compartments is rptured, the final temperature of the gas is :

A rigid and insulated tank of 3m^(3) volume is divided into two compartments. One compartment of volume of 2m^(3) contains an ideal gas at 0.8314 Mpa and 400 K while the second compartment of volume of 1m^(3) contains the same gas at 8.314 Mpa and 500 K. If the partition between the two compartments is rptured, the final temperature of the gas is :