Ammonia is an alkaline gas at room temperature. Its high solublity in water is due to the hydrogen bonds between the hydrogens of -N-H bonds and the lone pairs in nitrogen.
when a substance can not be chemically reduced
No, there is only one possible configuration for a compound with the formula NH3. An isomer is a substance for which there are more than one configurations for the same chemical formula.
NH3 is its own compound.The elements in NH3 are nitrogen and hydrogen.
MnCl2 + NH3
NH3 is Ammonia, which is not an acid.
Ammonia is NH3 and is a pure substance.
Ammonia gas is a single substance because it is a single compound, NH3.
A weak base that can accept protons in solution.
The gas ammonia, NH3, is a pure substance. Sometimes a solution of NH3 in water is called ammonia too although it shold be called aqueous ammonia for clarity. In that case it is a mixture, and since it is protonated to slightly less than 1%, it is a mixture of water, NH3, Ammonium ions NH4+ and hydroxide ions OH-.
when a substance can not be chemically reduced
NH3 Molecules = ( 8.1 x 10^20 H atoms ) ( 1 NH3 molecule / 3 H atoms ) NH3 Molecules = 2.7 x 10^20 NH3 molecules NH3 moles = ( NH3 molecules ) / ( N Avogadro ) NH3 moles = ( 2.7 x 10^20 NH3 molecules ) / ( 6.022 x 10^23 molecules / mole ) NH3 moles = 4.48 x 10^-4 NH3 moles <--------------
NH3, which stands for ammonia, is a pure substance. It is a compound composed of two elements, nitrogen (N) and hydrogen (H), in a fixed ratio, and it has uniform properties throughout.
Boiling point of NH3: -33,34 0C Boiling point of NF3: -129,1 0C The boiling point of ammonia is higher.
When attached to a carbon chain, it is called an amine and when attached to carbonyl carbon it is called an amide as anion NH2 it accures as sodamide NaNH2, which is prepared by adding sodium metal in liquid ammonia does not occur on its own.
No, there is only one possible configuration for a compound with the formula NH3. An isomer is a substance for which there are more than one configurations for the same chemical formula.
No. First of all, NH2- is an ion, not a molecule. Second, it has a bent geometry, similar to that of a water molecule.
NH3 is basic, it gains protons (from water or acids) to form ammonium ions: NH4+