It's precisely because it's so eager to get to the diatomic triple-bonded state. N2 is an incredibly stable molecule. There are few organisms capable of ripping it apart and fixing it into a biological useful state; most importantly, bacteria that live on certain plants' roots. This is why nitrogen is so important in fertilizer.
Anyway, when you convert an unstable nitrogen compound (at a reasonably high energy state) into that incredibly stable N2 (at a very low energy state), the huge difference in energy is released. If the difference is big enough, it's released as a big boom.
It is difficult to answer the question because diazene is a very unstable compound. Even at low temperatures, it decomposes into hydrazine and nitrogen.
The formula for dinitrogen pentoxide is N2O5. It is an unstable and highly reactive nitrogen oxide compound.
NCl5 does not exist because nitrogen cannot exhibit an oxidation state higher than +5 due to its electron configuration. In NCl5, nitrogen would need to have an oxidation state of +5, which is not possible. Additionally, the molecule would be highly unstable due to the repulsion between the nitrogen lone pair and the chlorine atoms.
N2 is a molecules of an element because both atoms in the molecule have the same number of protons (7). A lone nitrogen atom is somewhat unstable as it needs 3 more valence electrons for a full outer shell. To fill this shell it shares electrons with another nitrogen atom.
It would explode on them. Simply attempting to move NI3 to contact someone would be extremely difficult in the first place; being as unstable as it is, it is likely to result in detonation by trying to move it. However, the violence of the resulting explosion would be violent enough to cause serious physical damage.
Nitrogen triiodide - a very unstable and sensitive contact explosive.
NI5 ?IF it exists it would be Nitrogen PentaIodide. It would also be very unstable (i think) so don't go near it.
for lithium are LiH,LiF LiCl,LiBr and LiI and but for nitrogen are BN,AlN and GaN , but binary ionic compounds of nitrogen are unstable.
CuN2 is the chemical formula for copper dinitride, a compound composed of copper and nitrogen. It is a relatively unstable compound and does not have practical applications.
we'd probably explode, because Oxygen on it's own is highly unstable and about 75% of air is Nitrogen
The anion of nitrogen, N3-, is not commonly found in nature. It can be formed by the addition of three electrons to a nitrogen atom. However, this is highly unstable due to the strong repulsion between the three negatively charged electrons.
The imaginary compound nitrogen pentaiodide would be NI5 , it would not be an acid- there are no ionisable H atoms. (or a Lewis acid- it has no lone pair.) There is a real compound NI3, a very unstable substance a contact explosive. There is a reported PI5, but that is disputed.
No, it is a covalent unstable molecule due to presence of one unpaired electron in nitrogen atom, it exists as the brown gas .
It is difficult to answer the question because diazene is a very unstable compound. Even at low temperatures, it decomposes into hydrazine and nitrogen.
The resulting atoms are isotopes of nitrogen, specifically nitrogen with a higher mass number due to the additional neutrons. These isotopes may be unstable and can potentially undergo radioactive decay.
Oxygen and nitrogen are very difficult to combine chemically, often requiring the intense energy of a lightning bolt. When they do they produce chemicals called nitrogen oxides. Usually the reactions produce more than one nitrogen oxide. The most common ones are NO - nitric oxide, NO2 - nitrogen dioxide, and N2O - nitrous oxide. The other nitrogen oxides are N2O3, N2O4 and N2O5, although all three of these are unstable.
When liquid nitrogen is exposed to chlorine gas, a violent reaction can occur, leading to the formation of nitrogen trichloride (NCl3). This compound is highly unstable and can explode upon contact with organic materials or light. Extreme caution should be taken when combining these two substances.