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type of attractive force between the molecules.

       Dispersion forces, sometimes referred to as London forces, are the type of force that exists between nonpolar atoms such as argon, or between nonpolar molecules such as nitrogen. To see how this type of attractive force arises, we will consider the argon atom (Figure 2.12a). Although the argon atom (Atom 1) has a symmetrical distribution of electrons surrounding its nucleus so that is has no dipole, this situation is only true as an average over time. At any instant, the electron cloud undergoes local fluctuations in charge density, making the argon atom an instantaneous dipole. This instantaneous dipole produces an electric field that polarizes the electron distribution in a neighboring argon atom (Atom 2), so that the neighboring atom itself acquires a dipole. The electrostatic interaction between these two dipoles leads to an attractive force.

       Debye forces, sometimes described as dipole‐induced dipole forces: In this type of force, a polar molecule such as hydrogen chloride (HCl), for example, can induce a dipole in a neighboring nonpolar atom or molecule, such as an argon atom, for example, which results in an attractive electrostatic force between them (Figure 2.12b).

       Keesom forces, sometimes described as dipole–dipole forces: A polar molecule such as HCl, for example, can interact electrostatically with another polar molecule, such as HCl, to produce an attractive force (Figure 2.12c).

Schematic illustration of the interactions in van der Waals bonding: (a) dispersion force between nonpolar atoms or molecules; (b) Debye force between a polar molecule with a permanent dipole moment and a nonpolar atom or molecule; (c) Keesom force between two polar molecules, each having a permanent dipole moment.

      The attractive force between two dipoles can be calculated from Coulomb’s law of electrostatics. A simple case is the force between two parallel dipoles, that is, when their dipole moment is in the same direction, as illustrated in Figure 2.12. A dipole of charge magnitude δq and distance of separation r between its ends has a dipole moment given by

      (2.6)equation

      The attractive force between two parallel dipoles of moment p1 and p2, respectively, separated by a distance x that is much larger than r, is

Schematic illustration of (a) polarity of each covalent bond in the trichloromethane molecule (CHCl3), and (b) overall net dipole of the molecule.

      2.5.2 Hydrogen Bonding

      Although much weaker than the primary bonds, hydrogen bonds are a strong type of intermolecular bonding (Table 2.2). Hydrogen bonds result from Keesom forces, the bonding between molecules that have a permanent dipole, but in addition they have the following characteristics:

       A hydrogen atom is covalently bonded to a highly electronegative atom, thus the hydrogen atom has a slight positive character while the highly electronegative atom has a slight negative character.

       The highly electronegative atom to which the hydrogen atom is bonded has at least one active set of lone pair electrons.

Schematic illustration of hydrogen bonds between water molecules. Schematic illustration of the arrangement of water (H2O) molecules in ice showing the hydrogen bonds. Скачать книгу