FOOT JUICE
Nitrogen Fixation
The process that converts nitrogen compounds into ammonia is called nitrogen fixation. Microorganisms such as certain bacteria and archaea, as well as lightning and industrial processes, can carry out nitrogen fixation.
Thyere is a process. We use habor process for that.
The process that converts ammonia into nitrates is called nitrification. It involves two steps: first, ammonia is oxidized by bacteria into nitrites, and then the nitrites are further oxidized into nitrates by another group of bacteria. This process is important in the nitrogen cycle as it makes nitrogen available to plants for growth.
Nitrogen-fixing bacteria, such as Rhizobium and Azotobacter, convert gaseous nitrogen into ammonia through a process called nitrogen fixation. This process helps make nitrogen available to plants for growth and is a key step in the nitrogen cycle.
Making ammonia from nitrogen and hydrogen is a chemical change because it involves a rearrangement of the atoms in the reactants to form new chemical compounds in the product (ammonia). This process is characterized by the breaking and forming of chemical bonds.
If you mean how ammonia is produced especially from nitrogen~it will by haber process where one mole of nitrogen reacts with 3moles of hydrogen at 200 atmostpheres and temp 450,if no pls rephrase
The liver converts ammonia into urea through a series of chemical reactions in a process called the urea cycle. Urea is less toxic than ammonia and can be safely excreted by the kidneys in the urine.
The manufacture of ammonia from nitrogen and hydrogen is called the Haber process. The chemical equation is: N2 + 3H2 ⇌ 2NH3
Nitrosomonas converts ammonia into nitrite in the nitrification process, while Nitrobacter converts nitrite into nitrate. Both are essential in the nitrogen cycle, converting various forms of nitrogen to make it available to plants for growth.
The process of converting nitrogen gas into ammonia is called the Haber-Bosch process. It involves reacting nitrogen gas (N2) and hydrogen gas (H2) at high temperature (~450°C) and pressure (~200 atm) in the presence of an iron catalyst to produce ammonia (NH3). This process is crucial for the production of ammonia on an industrial scale for various applications such as fertilizers and chemical synthesis.
When hydrogen is combined with nitrogen in the presence of a catalyst at high temperatures and pressures, it forms ammonia through a process called Haber process. Ammonia is an important precursor for the production of fertilizers and various chemical compounds.