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.
Nitrogen gas (N2) and bromine liquid (Br2) are covalent. They react with each other to from NBr3 (nitrogen tribromide) which is also covalent.
The name for the compound NBr5 is nitrogen pentabromide. It is a chemical compound composed of one nitrogen atom and five bromine atoms.
Nitrogen and bromine can form both ionic and nonionic compounds. When nitrogen reacts with bromine, it can form covalent compounds such as nitrogen tribromide (a nonionic compound). However, under certain conditions, nitrogen and bromine can also form ionic compounds, such as when nitrogen reacts with bromine to form the ionic compound ammonium bromide.
The covalent compound for NBr3 is nitrogen tribromide. It is formed by nitrogen bonding with three bromine atoms through covalent bonds.
LaBr3 is Lanthanum tribromide, and it is an ionic compound.
Nitrogen gas (N2) and bromine liquid (Br2) are covalent. They react with each other to from NBr3 (nitrogen tribromide) which is also covalent.
NBr3 Covalent
The name for the compound NBr5 is nitrogen pentabromide. It is a chemical compound composed of one nitrogen atom and five bromine atoms.
Nitrogen and bromine can form both ionic and nonionic compounds. When nitrogen reacts with bromine, it can form covalent compounds such as nitrogen tribromide (a nonionic compound). However, under certain conditions, nitrogen and bromine can also form ionic compounds, such as when nitrogen reacts with bromine to form the ionic compound ammonium bromide.
The covalent compound for NBr3 is nitrogen tribromide. It is formed by nitrogen bonding with three bromine atoms through covalent bonds.
LaBr3 is Lanthanum tribromide, and it is an ionic compound.
Covalent
Nitrogen has a covalent molecule.
Covalent
Covalent
Covalent
Nitrogen trichloride is a covalent compound.