to convert ammoniacal nitrogen to ammonia then multiply the value by 17/14
to convert ammonia to ammoniacal nitrogen then multiply the value by 14/17
The mass percentage of nitrogen in ammonia (NH3) is 82.35%. This is calculated by dividing the mass of nitrogen in one mole of ammonia by the molar mass of ammonia, and then multiplying by 100 to get the percentage.
To find the mass of nitrogen needed to make ammonia, first determine the molar mass of ammonia (NH3) which is 17 g/mol. Since there is one nitrogen atom in ammonia, the nitrogen mass is 14 g/mol. To make 34 grams of ammonia, you would need 14 grams of nitrogen.
ammonia + oxygen --> nitrogen monoxide + water
Each mole of ammonia requires one mole of nitrogen atoms. However, the nitrogen in the air occurs as diatomic molecules; therefore, only one-half mole of molecular nitrogen is required for each mole of ammonia.
Ammonia-NH3 2N+3H2=2NH3 2moles of Nitrogen produced 2moles of Ammonia (2*14)g of Nitrogen produced (2*17)g of Ammonia 28g of Nitrogen produced 34g of Ammonia 34g of Ammonia is produced by 28g of Nitrogen 0.034kg of Ammonia is produced by 0.028kg of Nitrogen 91.3kg of Ammonia will be produced by 0.028*91.3/0.034 91.3kg of Ammonia will be produced by 75.19kg of Nitrogen FOR HYDROGEN: 3moles of H2 produces 2moles of NH3 (2*3)g H2 produces 2*17g NH3 6g hydrogen produces 34g ammonia 0.006kg hydrogen produces o.o34kg ammonia 91.3kg ammonia will be produced by 91.3*0.006/.034=16.11kg of Hydogen Therefore, 75.19kg of Nitrogen and 16.11kg of Hydrogen will produce 91.3kg of Ammonia
Ammoniacal nitrogen refers to the form of nitrogen present in water or soil as ammonium ions (NH4+). It is derived from the breakdown of organic matter and the decomposition of urea and other nitrogen-containing compounds. Ammoniacal nitrogen is an important parameter measured in water and soil testing, as it can indicate the presence of organic pollution or the potential for nitrogen fertilizers to leach into groundwater.
Ammonia (NH3) can be used as fuel.
Yes, ammonia vapor is heavier than nitrogen. The molecular weight of ammonia (NH3) is 17 grams per mole, while nitrogen (N2) has a molecular weight of 28 grams per mole. This difference in molecular weight causes ammonia vapor to be denser and heavier than nitrogen gas.
Yes. Ammonia is a compound of nitrogen and hydrogen.
No, nitrogen oxide and ammonia are not the same. Nitrogen oxide is a gas compound made of nitrogen and oxygen, while ammonia is a compound made of nitrogen and hydrogen. They have different chemical structures and properties.
The mass percentage of nitrogen in ammonia (NH3) is 82.35%. This is calculated by dividing the mass of nitrogen in one mole of ammonia by the molar mass of ammonia, and then multiplying by 100 to get the percentage.
Ammonia is a compound of two elements: nitrogen and hydrogen.
Nitrogen fixation is the process by which nitrogen gas from the atmosphere is converted into ammonia by certain bacteria. Ammonification, on the other hand, is the process by which organic nitrogen from dead organisms or waste is converted into ammonia by decomposers like bacteria and fungi. Nitrogen fixation introduces new nitrogen into the ecosystem, while ammonification recycles existing nitrogen.
Ammonia contains nitrogen atoms. Nitrogen has alone pair on it.
Nitrogen combines with hydrogen to make ammonia. The chemical formula for ammonia is NH3.
Ammonia and nitrogen are two distinct compounds, not a single compound that would have a molecular formula.
Ammonia gas is a compound composed of one nitrogen atom bonded to three hydrogen atoms. Ammonia ion, on the other hand, is the ionic form of ammonia that has gained a hydrogen ion (proton) to become NH4+. This means ammonia ion has a positive charge, while ammonia gas is neutral.