The ratio of lithium to nitrogen in the ionic compound lithium nitride is 3:1. This is because lithium has a +1 charge and nitrogen has a -3 charge, requiring three lithium ions to balance out one nitrogen ion.
One lithium ion can bond with one nitrogen ion because lithium has a +1 charge and nitrogen has a -3 charge, resulting in a stable ionic bond between one lithium ion and one nitrogen ion via the transfer of one electron from lithium to nitrogen to achieve a full valence shell.
The ionic compound formed between lithium (Li) and nitrogen (N) would be lithium nitride (Li3N). In this compound, lithium has a charge of +1 and nitrogen has a charge of -3, so the formula is Li3N.
Li3N; the lithium ion has a charge of +1 (Li+) while the nitride ion has a charge of -3 (N3-)
NL3, which represents the compound nitrogen trilithide, is an ionic compound. It contains the nitrogen ion with a -3 charge and the lithium ion with a +1 charge.
The chemical symbol for lithium nitride is Li3N. In Li3N, each lithium atom has an oxidation number of +1, while the nitrogen atom has an oxidation number of -3.
To form an ionic bond between lithium and nitrogen, lithium (Li) will donate one electron to nitrogen (N), resulting in the formation of Li+ and N^- ions. The lithium ion will have a positive charge, while the nitrogen ion will have a negative charge, and these oppositely charged ions will then be attracted to each other, forming an ionic bond.
Lithium nitrate contains the elements lithium (Li), nitrogen (N), and oxygen (O). Its chemical formula is LiNO3.
Lithium is the only element that can burn in nitrogen. When lithium reacts with nitrogen, it forms lithium nitride.
The symbol for sodium is Na. The symbol for lithium is Li.
The chemical symbol for lithium is Li.
The symbol of lithium on the periodic table is Li.