<P> For example, acetone, the active ingredient in some nail polish removers, has a net dipole associated with the carbonyl (see figure 2). Since oxygen is more electronegative than the carbon that is covalently bonded to it, the electrons associated with that bond will be closer to the oxygen than the carbon, creating a partial negative charge (δ) on the oxygen, and a partial positive charge (δ) on the carbon . They are not full charges because the electrons are still shared through a covalent bond between the oxygen and carbon . If the electrons were no longer being shared, then the oxygen - carbon bond would be an electrostatic interaction . </P> <Dl> <Dd> H δ + − Cl δ − ⋯ H δ + − Cl δ − (\ displaystyle (\ overset (\ color (Red) \ delta +) (\ ce (H))) - (\ overset (\ color (Red) \ delta -) (\ ce (Cl))) \ cdots (\ overset (\ color (Red) \ delta +) (\ ce (H))) - (\ overset (\ color (Red) \ delta -) (\ ce (Cl)))) </Dd> </Dl> <Dd> H δ + − Cl δ − ⋯ H δ + − Cl δ − (\ displaystyle (\ overset (\ color (Red) \ delta +) (\ ce (H))) - (\ overset (\ color (Red) \ delta -) (\ ce (Cl))) \ cdots (\ overset (\ color (Red) \ delta +) (\ ce (H))) - (\ overset (\ color (Red) \ delta -) (\ ce (Cl)))) </Dd> <P> Often molecules contain dipolar groups, but have no overall dipole moment . This occurs if there is symmetry within the molecule that causes the dipoles to cancel each other out . This occurs in molecules such as tetrachloromethane . Note that the dipole - dipole interaction between two individual atoms is usually zero, since atoms rarely carry a permanent dipole . See atomic dipoles . </P>

Stabilizing interactions van der waals electrostatic hydrogen bonding hydrophobic interaction