No. It is nonpolar. This is because the atoms are so similar and the number of atoms that they are giving up is equal. (They complete eachother.) All diatomic elements are nonpolar.Also, any bond between two of the same nonmetals are held together by nonpolar covalent bonds. Hope I helped!
Covalent. Non-metals tend to share electrons
Covalent. There is no electronegativity difference between two atoms of the same element.
A covalent bond will be formed between these two atoms. As a reule of thumb, a two nonmetals will always forma covalent bond.
Usually you would name chlorine as an element, and not an atom. An element has atoms, and there can be a chlorine atom. But according to terminology, you would name it as an element.
3 atoms
There is one covalent bond between two chlorine atoms in a molecule of chlorine.
There is one covalent bond in a chlorine molecule. The formula for a chlorine molecule is Cl2, which means that there are two chlorine atoms bonded together per molecule. The structural formula for a molecule of chlorine is Cl-Cl, in which the line in between the symbols for the two atoms represents a single covalent bond.
A chlorine molecule consists of two chlorine atoms bound together by a covalent bond. The symbol of a chlorine molecule is Cl2.
Covalent. Non-metals tend to share electrons
No. Bonds between atoms of the same element are nonpolar. The electronegativity difference between the two atoms is zero, which indicates that the bond is nonpolar.
i think it is a covalent bond
The bond between two atoms in a diatomic molecule of hydrogen, nitrogen, oxygen, fluorine, chlorine, bromine, or iodine is a nonpolar covalent bond.
The hydrochloric acid molecule has a polar covalent bond between hydrogen and chlorine atoms.
Chlorine molecules (Cl2) have of strong covalent bonds between the two Cl atoms. The bonds between one MOLECULE and another however are much weaker.
The chlorine molecule is composed from two atoms with a covalent bond.
They create a molecule with covalent bonding between atoms.
They create a molecule with covalent bonding between atoms.