Answer:
When two atoms with different electronegativities are bonded together, a covalent bond exists.
These are displayed with an arrow originating at the atom with the positive electronegativity and pointing toward the atom with the negative electronegativity.
Partial charges will exist on each atom when a bond exists between two atoms with different electronegativities. Since the atom with a higher electronegativity will have a stronger ability to attract electrons, it will have a partial negative charge.
The atom with a lower electronegativity will have an equal and opposite positive charge.
As the difference in electronegativity increases, the resulting magnitudes of the partial charges will increase.
Bond character is used to describe the severity of the electronegativity differences between the two atoms involved in a bond. Bonds that have covalent character correspond to a larger difference in electronegativities, and ionic bond character corresponds to a smaller difference. For example, increasing the electronegativity of atom "A" in the PhET simulation and decreasing the electronegativity of atom "B" will result in a bond that is partially ionic in character.
Explanation:
Covalent chemical bonds involve the exchange of a pair of valence electrons in two atoms, in contrast to the transfer of electrons in ionic bonds.
Covalent bonds in which the distribution of the electron pair is uneven, with electrons spending more time around the nonmetallic atom, are called polar covalent bonds. In such a link there is a separation of the charge, being a slightly more positive atom, and the other more negative, that is, the bond will produce a dipole moment. The ability of an atom to attract electrons in the presence of another atom is a measurable property called electronegativity.
