A `2L` flask contains `1.6 g` of methane and `0.5 g` of hydrogen at `27^(@)C`. Calculate the partial pressure of each gas in the mixture and hence calculate the total pressure.

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.

A 5.0 L flask contains 19.5 g of SO_(3) and 1.0 g of He gas at 20^(@)C . Calculate the partial pressures exerted by SO_(3) and He and the total pressure of the gaseous mixture.

A 2.5 L flask contains 0.25 mol each of sulphur dioxide and nitrogen gas at 27^(@)C . Calculate the partial pressure exerted by each gas and also the total pressure.

A 10 litre flask contains 0.2 mole of methane, 0.3 mole of hydrogen and 0.4 mole of nitrogen at 25^(@)C . What is the partial pressure of each component and what is the pressure inside the flask ?

Calculate the total pressure in a 10 litre cylinder which contains 0.4g of helium, 1.6g of oxygen and 1.4g of nitrogen at 27^(@)C . Also calculate the partial pressure of helium gas in the cylinder. Assume ideal behaviour of gases. Given R = 0.082 litre atm K^(-1) mol^(-1) .

20 g of hydrogen and 128g of oxygen are contained in a 20 L flask at 200^(@)C . Calculate the total pressure of the mixture. If a spark ignites the mixture, what will be the final pressure?