Because four gas molecules combine to form just two ammonia molecules, extreme pressure forces the chemical equilibrium forward to maximize the final yield.

The Haber process creates ammonia, which supplies essential nitrogen for plant growth. Nearly half the nitrogen in human bodies today originated from this synthetic process.

An Allied naval blockade cut off Germany from natural nitrates. They instead converted Haber-produced ammonia into nitric acid, a vital ingredient for TNT and other munitions.

Iron acts as a catalyst by lowering the energy required to break the exceptionally strong triple bond of nitrogen gas, though the iron is not consumed itself.

Ammonia provides essential nitrogen for crops, and synthetic fertilizers produced via this method sustain food production for about half the global population.

Earth's atmosphere is about 78% nitrogen gas. However, plants cannot absorb this abundant atmospheric nitrogen until the process chemically converts it into reactive ammonia.

Nitrogen has an incredibly strong triple bond that resists chemical reactions. Extreme pressure and a metal catalyst are needed to force it to bond with hydrogen gas.

Synthetic ammonia is easily converted into nitric acid, a vital precursor for TNT. This allowed Germany to manufacture munitions despite Allied blockades on natural nitrates.