When lithium and sulfur combine, they do so as Li2S (lithium sulfide). This is an ionic compound.
The least molecular mass of a compound containing 8% sulfur by mass would be the mass of sulfur (32 g/mol) divided by the mass percentage of sulfur (8%). This would give a molecular mass of 400 g/mol.
The molecular compound LF7 refers to a hypothetical compound that could be interpreted as consisting of one lithium (Li) atom and seven fluorine (F) atoms. However, it's important to note that the actual compound would likely be lithium fluoride (LiF) rather than LF7, as lithium typically forms a stable ionic compound with fluorine. If LF7 is being used in a different context or has a specific meaning, please provide more details for clarification.
This compound is generally considered covalent, because sulfur is not known to form any cation with a charge of +6, as would be required for the compound to be ionic, since fluoride ion always has a charge of -1.
Li3N would be lithium nitride. LiNO3 would be lithium nitrate. LiN3 does not exist.
Sulfur is an element and therefore a homogeneous substance.
The cation in a compound containing lithium and sulfur is lithium (Li+). In this compound, lithium acts as the positively charged cation, while sulfur would be the anion with a charge of 2- to balance the compound Li2S.
The formula for the compound between Lithium and Sulfur is Li2S because Lithium has a +1 charge while Sulfur has a -2. So for it to be stable, there needs to be two Lithium atoms attached to one Sulfer.
In a chemical reaction between lithium (Li) and sulfur (S), it is likely that lithium would donate its electron to sulfur, forming an ionic bond between Li+ and S2-. This creates lithium sulfide (Li2S), an ionic compound.
The least molecular mass of a compound containing 8% sulfur by mass would be the mass of sulfur (32 g/mol) divided by the mass percentage of sulfur (8%). This would give a molecular mass of 400 g/mol.
Li3P is an unstable compound. It would be named lithium phosphide, or if using the prefix notation, it would be called trilithium phosphide.
Molecular. The empirical formula would simply be S.
Lithium combines with chlorine to form lithium chloride which is an ionic compound.
The molecular compound LF7 refers to a hypothetical compound that could be interpreted as consisting of one lithium (Li) atom and seven fluorine (F) atoms. However, it's important to note that the actual compound would likely be lithium fluoride (LiF) rather than LF7, as lithium typically forms a stable ionic compound with fluorine. If LF7 is being used in a different context or has a specific meaning, please provide more details for clarification.
Sulfur can form compounds with lithium, such as lithium sulfide (Li2S) or lithium polysulfides. These compounds are typically formed through chemical reactions where lithium donates its electrons to sulfur to create stable compounds.
Argon is an inert gas, and an inert gas does not want to combine with anything else. There is no compound name for a lithium and argon compound because there is no lithium and argon compound.
LiO does not form. Li2O would form and is lithium oxide.
The name of the molecular compound of chemical formula SO3 is sulfur trioxide. As a gas, this is a pollutant agent of acid rain. It is used as a precursor to sulfuric acid.