NBr3 does not contain an ionic bond. It is a covalent compound since nitrogen and bromine share electrons to form bonds.
The covalent compound for NBr3 is nitrogen tribromide. It is formed by nitrogen bonding with three bromine atoms through covalent bonds.
The bond in NBr3 is a covalent bond, where nitrogen and bromine share electrons to form a stable molecule.
No, nitrogen and bromine do not form an ionic bond. Nitrogen and bromine typically form covalent bonds when they combine in a compound.
Nitrogen tribromide (NBr3) is a covalent compound. It is formed by sharing electrons between nitrogen and bromine atoms to achieve stability, rather than transferring electrons to form ions.
NBr3 is a covalent compound. It consists of nonmetals (N and Br) which typically form covalent bonds by sharing electrons.
NBr3 does not contain an ionic bond. It is a covalent compound since nitrogen and bromine share electrons to form bonds.
NBr3 Covalent
No, NBr3 is not an ionic compound. It is a covalent compound because it is composed of nonmetals (nitrogen and bromine) that share electrons to form bonds.
The covalent compound for NBr3 is nitrogen tribromide. It is formed by nitrogen bonding with three bromine atoms through covalent bonds.
The bond in NBr3 is a covalent bond, where nitrogen and bromine share electrons to form a stable molecule.
No, nitrogen and bromine do not form an ionic bond. Nitrogen and bromine typically form covalent bonds when they combine in a compound.
Nitrogen tribromide (NBr3) is a covalent compound. It is formed by sharing electrons between nitrogen and bromine atoms to achieve stability, rather than transferring electrons to form ions.
Is CsL ionic or covalent
Yes, nitrogen bromide (NBr3) is a covalent compound. It is composed of nonmetals nitrogen and bromine, which share electrons through covalent bonds to form the molecule.
No, but the bond in sodium chloride is covalent.
NBr3 and PBr3 are both covalent compounds that contain bromine and have a trigonal pyramidal molecular geometry. They are also both used as reagents in organic synthesis, particularly in halogenation reactions.