It's a covalent compound. Ionic compounds have at least one metal in them, but covalent consists of ONLY non-metals. Thus, since both C (Carbon) and H (Hydrogen) are non-metals, it is covalent.
Covalent
Yes, C3H8 (propane) is a covalent compound. It consists of carbon and hydrogen atoms bonded together through covalent bonds, where electrons are shared between the atoms.
The Greek prefix for 3 is "tri-". So, in the covalent compound C3H8, the cation represented by the Greek prefix is tri- (as in tricarbon).
Li3N and IF3 are ionic compounds, while NH3 and C3H8 are covalent compounds. Li3N contains a metal (Li) and a nonmetal (N), forming an ionic bond, and IF3 has a metal (I) and a nonmetal (F) as well. NH3 (ammonia) and C3H8 (propane) consist only of nonmetals, forming covalent bonds.
A telephone receiver is not a compound itself, but the materials used to make it can be either ionic or covalent compounds. The components of a telephone receiver, such as plastics and metals, are typically made of covalent compounds.
Covalent
Yes, C3H8 (propane) is a covalent compound. It consists of carbon and hydrogen atoms bonded together through covalent bonds, where electrons are shared between the atoms.
Chlorine oxide would be a covalent compound, and not an ionic compound.
is carbon an tretaflouride ionic or covalent compound
The Greek prefix for 3 is "tri-". So, in the covalent compound C3H8, the cation represented by the Greek prefix is tri- (as in tricarbon).
What I had found is that it is an Ionic compound
Ionic Compound.
It is an ionic compound.
H2CO3 is a covalent compound. It is composed of nonmetals, which typically form covalent bonds by sharing electrons.
i think it it covalent
Li3N and IF3 are ionic compounds, while NH3 and C3H8 are covalent compounds. Li3N contains a metal (Li) and a nonmetal (N), forming an ionic bond, and IF3 has a metal (I) and a nonmetal (F) as well. NH3 (ammonia) and C3H8 (propane) consist only of nonmetals, forming covalent bonds.
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.