Tin(IV) oxide is primarily considered an ionic compound, as it is composed of a metal cation (tin) and a non-metal anion (oxygen) that form an ionic bond.
The word nitrate oxide is meaning less it is either nitric oxide or nitrogen oxide, these compounds are covalent.
Lauramine oxide is a covalent compound. Lauramine oxide is a surfactant, and the bond between nitrogen and oxygen in the molecule is formed by sharing electrons, which is characteristic of covalent compounds.
Al2O3 (aluminum oxide) does not have purely covalent bonds. It has a combination of ionic and covalent bonding. Aluminum and oxygen atoms share electrons covalently, but the overall structure involves ionic bonds between aluminum and oxygen ions.
Vanadium oxide typically has a combination of ionic and covalent bonds. The metal cation (Vanadium) typically forms ionic bonds with the oxygen anions, while there can also be some covalent character due to electron sharing between the vanadium and oxygen atoms.
Dipotassium oxide is an ionic compound. Potassium is a metal, which typically forms ionic compounds with nonmetals like oxygen. In this case, potassium donates its electron to oxygen, resulting in an ionic bond between the two atoms.
Ionic
Chlorine oxide would be a covalent compound, and not an ionic compound.
Lithium oxide is an ionic lattice.
Ionic
Ionic
Ionic. This is the best decription of FeO, iron(II) oxide.
Hydrogen oxide (a.k.a. water) is a polar covalent compound.
no is the answer for sure
The bond is ionic.
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The word nitrate oxide is meaning less it is either nitric oxide or nitrogen oxide, these compounds are covalent.
Lead oxide typically exhibits a combination of ionic and covalent bonding. In lead(II) oxide (PbO), the bonding is primarily ionic between the lead(II) cation and oxide anion. In lead(IV) oxide (PbO2), there is a mixture of covalent and ionic bonding due to the presence of the peroxide (O2^2-) anion.