Covalent
Sulfur trioxide is not ionic; it is covalently bonded. When dissolved in water, however, sulfur trioxide forms sulfuric acid, which is partially ionic: It dissociates into hydrogen ions and sulfate polyatomic cations.
SO3 is a covalent compound, not ionic. It is called sulfur trioxide.
covalent
No, diphosphorus trioxide (P2O3) is a covalent compound, not ionic. This is because it is composed of nonmetals (phosphorus and oxygen), which typically form covalent bonds by sharing electrons.
Dinitrogen trioxide is a covalent compound. It is composed of two nitrogen atoms covalently bonded to three oxygen atoms.
Sulfur trioxide is not ionic; it is covalently bonded. When dissolved in water, however, sulfur trioxide forms sulfuric acid, which is partially ionic: It dissociates into hydrogen ions and sulfate polyatomic cations.
SO3 is a covalent compound, not ionic. It is called sulfur trioxide.
covalent
No, diphosphorus trioxide (P2O3) is a covalent compound, not ionic. This is because it is composed of nonmetals (phosphorus and oxygen), which typically form covalent bonds by sharing electrons.
Dinitrogen trioxide is a covalent compound. It is composed of two nitrogen atoms covalently bonded to three oxygen atoms.
Since Sulfur Trioxide (SO3) is composed of two elements in an ionic bond, it is a binary compound.
It is a molecular (covalent) compound. Present day text books refer to a covalent compound as a molecular compound, as opposed to an ionic one.
Diphosphorus trioxide (P2O3) is a covalent compound. It is composed of nonmetals (phosphorus and oxygen) that share electrons to form covalent bonds.
Dinitrogen trioxide is a covalent compound. It is composed of nonmetal elements (nitrogen) which typically form covalent bonds by sharing electrons.
No, sulfur hexafluoride is not an ionic compound. It is a covalent compound composed of sulfur and fluorine atoms sharing electrons, rather than transferring them to form ions.
SO3 sulfur trioxide is covalent. There are S=O bonds and the molecule is trigonal planar as predicted by VSEPR.
Sulfur and oxygen can form compounds, but typically they form covalent compounds instead of ionic compounds. This is because both sulfur and oxygen are nonmetals, which tend to share electrons rather than transfer them to form ions. Examples of covalent compounds between sulfur and oxygen include sulfur dioxide (SO2) and sulfur trioxide (SO3).