400cc of `N_2` at 600mm and 500cc of `O_2` at 300mm are quantitatively transferred in to an empty vessel of X 2 L capacity. Calculate the pressure of the mixture

400 mL of N_(2) gas at 700 mm and 300 mL of H_(2) gas at 800 mm are introduced into a vessel of 2 L at the same temperature. Calculate the final pressure of the gas mixture.

4g of O_(2) and 2g " of " H_(2) are confined in a vessel of capacity 1 litre at 0^(@)C . Calculate the total pressure of the gaseous mixture.

4 g of O_2 and 2g of H_2 are confined in a vessel of capacity 1 litre at 0^@C . Calculate the partial pressure of each gas, and

4 g of O_2 and 2g of H_2 are confined in a vessel of capacity 1 litre at 0^@C . Calculate the number of moles of each gas

A certain vessel X has water and nitrogen gas at a total pressure of 2 atm and 300 K . All the contents of vessel was transferred to another vessel Y having half the capacity of the vessel X . The pressure of N_(2) in this vessel was 3.8 atm at 300 K . The vessel Y is heated to 320 K and the total pressure observed was 4.32 atm. Assume that the volume occupied by the gases in vessel is equal to the volume of the vessel. Calculate the following: Pressure of H_(2)O in X at 320 K .

A certain vessel X has water and nitrogen gas at a total pressure of 2 atm and 300 K . All the contents of vessel and transferred to another vessel Y having half the capacity of the vessel X . The pressure of N_(2) in this vessel was 3.8 atm at 300 K . The vessel Y is heated to 320 K and the total pressure observed was 4.32 atm. Assume that the volume occupied by the gases in vessel is equal to the volume of the vessel. Calculate the following: Pressure of H_(2) at 320 K .

A certain vessel X has water and nitrogen gas at a total pressure of 2 atm and 300 K . All the contents of vessel and transferred to another vessel Y having half the capacity of the vessel X . The pressure of N_(2) in this vessel was 3.8 atm at 300 K . The vessel Y is heated to 320 K and the total pressure observed was 4.32 atm. Assume that the volume occupied by the gases in vessel is equal to the volume of the vessel. Calculate the following: Pressure of water vapour at 320 K .

A certain vessel X has water and nitrogen gas at a total pressure of 2 atm and 300 K . All the contents of vessel and transferred to another vessel Y having half the capacity of the vessel X . The pressure of N_(2) in this vessel was 3.8 atm at 300 K . The vessel Y is heated to 320 K and the total pressure observed was 4.32 atm. Assume that the volume occupied by the gases in vessel is equal to the volume of the vessel. Calculate the following: Enthalpy of vapourization.

2g of hydrogen is sealed in a vessel of volume 0.02m^(3) and is maintained at 300K. Calculate the pressure in the vessel.

At constant temperature 200 cm^(3) of N_(2) at 720 mm and 400 cm^(3) of O_(2) at 750 mm pressure are put together in a litre flask. The final pressure of mixture is