No, nitrogen and bromine do not form an ionic compound because both elements are nonmetals and tend to form covalent bonds. Ionic compounds are typically formed between a metal and a nonmetal.
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.
Nitrogen gas (N2) and bromine liquid (Br2) are covalent. They react with each other to from NBr3 (nitrogen tribromide) which is also covalent.
NBr3 does not contain an ionic bond. It is a covalent compound since nitrogen and bromine share electrons to form bonds.
NBr3 is a covalent compound. It is made up of nitrogen and bromine atoms, which share electrons to form covalent bonds.
No, Bromine trichloride (BrCl3) is a covalent compound because it is formed by sharing electrons between bromine and chlorine atoms rather than transferring electrons as in ionic compounds.
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.
Nitrogen gas (N2) and bromine liquid (Br2) are covalent. They react with each other to from NBr3 (nitrogen tribromide) which is also covalent.
NBr3 does not contain an ionic bond. It is a covalent compound since nitrogen and bromine share electrons to form bonds.
No, both Nitrogen(N) and Bromine(Br) are non-metals. Therefore they must be covalent formed by the sharing of electrons. N forms a single bond with each of the Br atoms.
NBr3 is a covalent compound. It is made up of nitrogen and bromine atoms, which share electrons to form covalent bonds.
Nitrogen oxides are not ionic compounds.
No, Bromine trichloride (BrCl3) is a covalent compound because it is formed by sharing electrons between bromine and chlorine atoms rather than transferring electrons as in ionic compounds.
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 oxide is a molecular compound, not an ionic compound. It is composed of nitrogen and oxygen atoms bonded together covalently.
No, bromine and carbon would not form an ionic compound. Carbon typically forms covalent bonds and bromine can also form both covalent and ionic bonds, depending on the element it is reacting with. In this case, a covalent bond would be more likely between bromine and carbon.
LaBr3 is Lanthanum tribromide, and it is an ionic compound.
Bromine (molecular Br2) is an covalent compound