Liquids     17



                                In the absence of other forces, the free energy of a liquid is
                                minimized when it adopts the minimum surface area possible.
                                The free energy change in a surface of area A, depends on the
                                surface tension of the liquid, γ, and is given by dG=γ dA. For a
                                gas cavity of radius r within a liquid, the pressure difference
                                between the inside and the outside of the cavity is given by
                                ∆p=p gas −p liquid =2γ/r.

                                For bubbles, the presence of two surfaces doubles the pressure
                                differential between the inside and outside of the bubble for a
                                given radius: ∆p=p inside −p outside =4γ/r.
                                Surfactants are chemical species with a tendency to accumulate at
                                surfaces, and tend to lower the surface tension of a liquid. Most
                                surfactants are composed of a hydrophilic head and a
                                hydrophobic tail. Assuming the solvent to be water or another
                                polar solvent, the conflicting requirements of the two groups are
                                met at the surface, with the head remaining in the solvent and the
                                tail pointing out of the solvent. Above a critical concentration and
                                above the Krafft temperature, surfactant molecules may not only
                                accumulate at the surface, but may also form micelles. Micelles
                                are clusters of between some tens and some thousands of
                                surfactant molecules whose tails cluster within the micelle so as
                                to maximize interactions between the tails, leaving a surface of
                                solvated hydrophilic heads.
                                Materials in a superficially liquid state which retain most of their
                                short-range order, and some of their long-range order are no
                                longer solid nor are they truly liquid, and are termed liquid
                                crystals. Liquid crystals tend to be formed from molecules which
                                are highly anisotropic, with rod, disk, or other similar shapes. In
                                the smectic phase, molecules are aligned parallel to one another
                                in regular layers. In the nematic phase, the molecules are aligned
                                parallel to one another, but are no longer arranged in layers, and
                                in the cholosteric phase ordered layers of molecules are aligned
                                with respect to one another within each layer, but the layers are
                                no longer ordered with respect to one another.
         Related topics         Molecular behavior in perfect   Molecular aspects of ionic
                                gases (A2)               motion (E7)




                                    Structure of liquids

        The structure of a liquid is intermediate between that of a solid (see Topic A5) and a gas
        (see Topic A3). The molecules in a liquid have sufficient energy to allow relative motion
        of its constituent molecules, but insufficient to enable the truly random motion of a gas.
        Liquids have a limited degree of short-range order, but virtually no long-range order, and
        in  contrast to a solid, a liquid cannot be adequately described in terms of atomic