2.8 g of `N_(2)` 0.40 g of `H_(2)` and 6.4 g of `O_(2)` are placed in a container of 1.0 L capacity at `27^(@)` C. The total pressure in the container is

A mixture containing 1.6 g of O_(2) , 1.4 g of N_(2) and 0.4 g of He occupies a volume of 10 litres at 27^(@)C . Calculate the total pressure of the mixutre and partial pressure of each compound.

1g H_(2), 2g He and 3g NO are contained in 1.1 L flask at 300 K. Total pressure exerted by the mixture is :

A mixture of NH_(3(g)) and N_(2)H_(4_((g))) is placed in a sealed container at 300 K . The total pressure is 0.5 atm . The container is heated to 1200 K , at which time both substances decompose completely according to the equations: 2NH_(3(g))rarrN_(2(g))+3H_(2(g)) N_(2)H_(4_((g)))rarrN_(2(g))+2H_(2(g)) After decomposition is complete, the total pressure at 1200 K is found to be 4.5 atm . Find the amount (mole) per cent of N_(2)H_(4(g)) in the original mixture.

A mixture of one mole of each of O_2(g), H_2(g) , He(g) exists in a container of volume V at temperatureT in which partial pressure of H_2 (g) is 2atm. the total pressure in the container is:

A vessel of 4.00L capacity contains 4.00 g of methane and 1.00 g of hydrogen at 27^(@)C . Calculate the partial pressure of each gas and also the total pressure in the container.