It would be nonpolar. But since it has two atoms of the same type it would be an element, not a compound.
No, a bromine-bromine bond is nonpolar because bromine atoms have similar electronegativities. This results in a symmetrical distribution of electron density around the atoms.
No, Br2 does not have a polar covalent bond. Bromine is a nonpolar molecule because the electronegativity difference between the two bromine atoms is small (both are nonmetals with similar electronegativities).
No, bromine gas is not a compound. It is a diatomic molecule consisting of two bromine atoms bonded together.
The compound Br2O3 is called bromine trioxide. It is a chemical compound formed from bromine and oxygen atoms.
Bromine trifluoride is a polar molecule. This is because the individual bond dipoles between the bromine and fluorine atoms do not cancel each other out, resulting in an overall molecular dipole moment.
Bromine forms a nonpolar covalent bond with itself. This means that the two bromine atoms share electrons equally, resulting in a stable molecule.
Two bromine atoms will form a nonpolar covalent bond when they react with each other.
A nonpolar covalent bond forms between two bromine atoms, where the atoms share electrons equally to achieve a stable electron configuration.
The chemical formula for the compound formed between zinc and bromine is ZnBr2. This indicates that the compound consists of one zinc atom bonded to two bromine atoms.
Bromine gas is a pure substance, which means it is not a mixture. It is a diatomic molecule composed of two bromine atoms bonded together, making it a compound.
The chemical formula Br2N3 represents a compound composed of bromine and nitrogen atoms. The compound consists of two bromine atoms and three nitrogen atoms bonded together.
Bromine and iodine are both nonpolar molecules because they consist of two identical atoms, so there is no significant difference in electronegativity between them. This results in a symmetric distribution of electrons and a lack of partial charges on the atoms, making them nonpolar.