it depends if the formula. it is ionic if the bonds are formed between nonmetal and metals.
The chemical compound P2O2 does not exist. IF it could it would almost certainly be covalently bonded.
P4O4 is not a chemical compound. P4O10 is a covalent compound. P and O always form covalent bonds.
This compound is carbon tetrabromide.
The combination of a metal with a nonmetal yields an ionic compound, and if only metals are involved you get a metallic bond, and if only nonmetals are involved you get covalent bonds. The other technique is to look up the actual electronegativity of the elements involved in the reaction, and determine how great a difference in electronegativity there is. A large difference produces an ionic compound, a small difference produces a covalent compound.
A compound formed by ionic bond will have charges written on the Chemical formula of the compound since ionic compounds carry charges. But, covalent compounds won't have charges associated with them because they are not formed by the transfer of electrons. Another way of telling the difference is by looking at the valencies. One of the elements present in a covalent compound will have tetra-valency i.e., a valency of 4.
ionic compounds are a metal and a non-metal joined together in a bond
The electronegativity difference between the bonding atoms is concerned to determine it ionic behaviour.
The chemical compound P2O2 does not exist. IF it could it would almost certainly be covalently bonded.
Iron is a chemical element, not a compound.
P4O4 is not a chemical compound. P4O10 is a covalent compound. P and O always form covalent bonds.
By definition, any covalent chemical is a compound. Formic acid is a covalent chemical (specifically, a monoprotic organic acid CHOOH).
Phosphorus is a chemical element, not a compound.
This compound is carbon tetrabromide.
The combination of a metal with a nonmetal yields an ionic compound, and if only metals are involved you get a metallic bond, and if only nonmetals are involved you get covalent bonds. The other technique is to look up the actual electronegativity of the elements involved in the reaction, and determine how great a difference in electronegativity there is. A large difference produces an ionic compound, a small difference produces a covalent compound.
A compound formed by ionic bond will have charges written on the Chemical formula of the compound since ionic compounds carry charges. But, covalent compounds won't have charges associated with them because they are not formed by the transfer of electrons. Another way of telling the difference is by looking at the valencies. One of the elements present in a covalent compound will have tetra-valency i.e., a valency of 4.
Given that no metallic compounds exist inside it's chemical structure, it is covalent.
electricity