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No, Co (cobalt) and Br (bromine) do not typically form an ionic compound. Cobalt is a transition metal with variable oxidation states, while bromine is a halogen with a high electronegativity. In general, transition metals tend to form coordination complexes with ligands rather than traditional ionic compounds with nonmetals like halogens.
Zinc will form an ionic bond with bromine. Zinc will donate its two outermost electrons to bromine, which will accept them to achieve a stable octet configuration. This transfer of electrons results in the formation of Zn2+ and Br- ions, which attract each other to form an ionic bond.
No, selenium and bromine would not form a covalent bond. Bromine typically forms ionic bonds with other elements due to its high electronegativity, while selenium can form covalent bonds with other nonmetals. In this case, selenium and bromine would likely form an ionic bond rather than a covalent bond.
Yes, sodium and bromine form an ionic bond when they react to create sodium bromide. Sodium, a metal, transfers its electron to bromine, a nonmetal, resulting in the formation of ions with opposite charges that are held together by electrostatic interactions.
NBr3 does not contain an ionic bond. It is a covalent compound since nitrogen and bromine share electrons to form bonds.
Cobalt and bromine form an ionic bond. Another name for this is electrovalent.
There is no electro negativity difference.The bond is covalent.
No, Co (cobalt) and Br (bromine) do not typically form an ionic compound. Cobalt is a transition metal with variable oxidation states, while bromine is a halogen with a high electronegativity. In general, transition metals tend to form coordination complexes with ligands rather than traditional ionic compounds with nonmetals like halogens.
Zinc will form an ionic bond with bromine. Zinc will donate its two outermost electrons to bromine, which will accept them to achieve a stable octet configuration. This transfer of electrons results in the formation of Zn2+ and Br- ions, which attract each other to form an ionic bond.
ionic bond
No, selenium and bromine would not form a covalent bond. Bromine typically forms ionic bonds with other elements due to its high electronegativity, while selenium can form covalent bonds with other nonmetals. In this case, selenium and bromine would likely form an ionic bond rather than a covalent bond.
Yes, sodium and bromine form an ionic bond when they react to create sodium bromide. Sodium, a metal, transfers its electron to bromine, a nonmetal, resulting in the formation of ions with opposite charges that are held together by electrostatic interactions.
NBr3 does not contain an ionic bond. It is a covalent compound since nitrogen and bromine share electrons to form bonds.
Chloride and bromine are not likely to form an ionic bond because only one of them, chloride, is an ion.If the questioner meant chlorine and bromine, they are not likely to form an ionic bond with each other, because there is too little difference in their electronegativities. However, both of them are very likely to form ionic bonds with less electronegative elements, such as metals.
Sodium and bromine form an ionic bond because sodium donates one electron to bromine, resulting in the formation of sodium cations and bromine anions that are attracted to each other due to their opposite charges. This creates a stable compound known as sodium bromide.
Ionic bond. The metal (iron) gives up electrons to the non-metal (bromine.)
Sulphur and bromine generally form covalent bond and not ionic bond.