Ammonia

I, II and III

I, II and IV

II, III and IV

All of the above

High pressure of 250 atm is used to increase yield.

Each hydrogen molecule reacts with three nitrogen molecules to form two molecules of ammonia.

A low temperature of 450 ^oC is used.

The reaction is reversible.

A high yield of ammonia is favoured by high pressure.

A high yield of ammonia is favoured by high temperature.

A high yield of ammonia is favoured by adding catalyst.

The reaction between nitrogen and hydrogen is irreversible.

P: cracking ; Q: fractional distillation ; Y: iron

P: cracking ; Q: fractional distillation ; Y: nickel

P: fractional distillation ; Q: cracking ; Y: iron

P: combustion ; Q: cracking ; Y: nickel

AsH⁺ and H⁺

AsH₃⁺ and OH⁻

AsH₄⁺ and H⁺

AsH₄⁺ and OH⁻

It provides all the essential nutrients for plant growth.

They form a compound which is not washed away by rain water.

It provides nitrogen and carbon dioxide which are required for plant growth.

It provides nitrogen for plant growth and calcium carbonate to neutralise the excess acidity of the soil.

ammonia decomposes back to its original reactant.

the activation energy is too low.

the catalyst is inactive.

the reaction is too slow.

The hydrogen needed is obtained mainly by cracking of petroleum oil.

The reaction is endothermic and therefore a moderate temperature of 450^oC is used.

High pressure favours the production of ammonia.

The industrial catalyst used is iron.

passing the gaseous mixture through fused calcium chloride.

dissolving the other two gases.

filtering out the other two gases by passing through cotton wool.

cooling the mixture.