Yes.
Lithium is an alkali metal and forms the same kinds of compounds as sodium and potassium.
Example: LiF, lithium fluoride
Yes. It has constant proportions between lithium and chlorine but can be decomposed into its elements.
Due to its high reactivity lithium is found in compounds.
no it forms a compound
Yes
Because lithium form a cation and sulfur an anion the lithium sulfide (Li2S) form an ionic compound, a salt.
Lithium combines with chlorine to form lithium chloride which is an ionic compound.
The lithium ion will be stripped of its electron by the flouride ion, resulting in an ionic bond, where the lithium atom will have 0 valence electrons and the fluoride ion will have 8
Lithium and fluorine react together to form lithium fluoride which is an ionic compound.
Sulfur can form ionic compounds (eg SO2), but Xenon is a noble gas and does not react to form compounds.
Because lithium form a cation and sulfur an anion the lithium sulfide (Li2S) form an ionic compound, a salt.
Lithium oxide is an ionic compound, further, all oxides of the group 1 elements are ionic.
Lithium combines with chlorine to form lithium chloride which is an ionic compound.
The compounds in the system nitrogen-sulfur are not ionic.
Lithium and fluorine react together to form lithium fluoride which is an ionic compound.
The lithium ion will be stripped of its electron by the flouride ion, resulting in an ionic bond, where the lithium atom will have 0 valence electrons and the fluoride ion will have 8
Sulfur can form ionic compounds (eg SO2), but Xenon is a noble gas and does not react to form compounds.
Lithium and Chlorine produce the compound Lithium Chloride.
Lithium reacts with fluorine to form an ionic compound, LiF. The rest all form covalent compounds
Sulfur can form both ionic and covalent compounds. For example, sulfur dioxide is a covalent compound whereas sulfides of metals are ionic compounds.
yes
Yes, LiCl is the chemical formula for the compound lithium chloride. It is an ionic compound, where there is strong electrostatic attraction between oppositely charged Li+ and Cl- ions. The lithium and chloride ions occupy alternate and opposite positions in the giant lattice structure characteristic of an ionic compound.