Atoms on the Right Hand Side of the Periodic Table - Carbon, Phosphorous, Chlorine itself etc
i think it is a covalent bond
Yes, two chlorine atoms can bond, to form Cl2, which is the elemental form of chlorine.. The individual atoms do not gain or lose electrons but share them forming a covalent bond.
There is one covalent bond between two chlorine atoms in a molecule of chlorine.
The atoms share the pair of electrons in a nonpolar covalent bond.
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.
Covalent. Non-metals tend to share electrons
i think it is a covalent bond
Yes, two chlorine atoms can bond, to form Cl2, which is the elemental form of chlorine.. The individual atoms do not gain or lose electrons but share them forming a covalent bond.
There is one covalent bond between two chlorine atoms in a molecule of chlorine.
Covalent. There is no electronegativity difference between two atoms of the same element.
The atoms share the pair of electrons in a nonpolar covalent bond.
A covalent bond will be formed between these two atoms. As a reule of thumb, a two nonmetals will always forma covalent bond.
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.
covalent
The answer i believe is Non-polar Covalent.
nonpolar covalent bond
A covalent bond is most likely to be polar when there is a large difference in the electronegativity of the two atoms that form the bond.