In Haber process 30 litre of dihydrogen and 30 litres of dinitrogen were taken for reaction which yielded only`50%` of the expected product. What will be the composition of gaseous mixture under the aforesaid condition in the end ?

In the Haber process, 30 L of dhyrgen and 30L of dintrogen were taken for reaction which yielded only 50% of the expected product. What will be the composition of the gaseous mixturre under the aforesaid condition in the end?

In Haber process, 30 litres of H_(2) and 30 litres of N_(2) were taken for reaction which yielded only 50% of the expected product. What will be the composition of the gaseous mixture under the above said condition in the end?

In the Haber process: N_(2)(g)+3H_(2)(g) to 2NH_(3)(g) 30L of H_(2) of N_(2) were taken for reaction which yielded only 50% of expected product. What will be th composition of the geseous mixture in the end?

If 6 litre of Nitrogen and 10 litre of hydrogen are taken in a reactor and the reaction achieves 50% completion, then what will be the final volume of gases in the vessel ?

If 6 litre of Nitrogen and 10 litre of hydrogen are taken in a reactor and the reaction achieves 50% completion, then what will be the final volume of gases in the vessel ?

N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g), DeltaH^(ɵ)=-22.4 kJ The pressure inside the chamber is 100 atm and temperature at 300 K 30 L H_(2)(g) and 30 L N_(2)(g) were taken for the reaction in Haber's process which yields only 50% of the expected ammonia due to reversibility of the reaction. What will be the composition of reaction mixture under the given condition?

A gaseous mixture (He and CH_(4)) which has density (64)/(246.3) gm/litre at 1 atm & 300 K is kept in a container. Now a pinhole is made on the wall of the container through which He(g) and CH_(4) effuses. What will be the composition of the gas mixture [n_(He) : n_(CH_(4))] effusing out initially?