B4
                                     ENTROPY



        Key Notes
                                For any process in which energy is transferred from one body to
                                another, it is possible to transfer the energy in one of two ways. If
                                the energy is transferred reversibly to or from a system, it must be
                                possible to reverse the direction of the transfer through an
                                infinitesimal change in the conditions. In practice, this requires
                                that the energy be transferred infinitely slowly. An irreversible
                                process results from energy transfer which is not transferred
                                under these conditions.
                                Entropy is a thermodynamic property of a system, denoted as S. It
                                is a state function and is defined in terms of entropy changes
                                rather than its absolute value. For a reversible process at constant
                                temperature, the change in entropy, dS, is given by dS=dq rev /T.
                                For an irreversible process, dS>dq/T.
                                In addition to the thermodynamic definition of entropy, it is also
                                possible to refer to entropy in statistical terms. For any system,
                                the entropy is given by S=k B ln(W), where W is the number of
                                possible configurations of the system. This definition allows the
                                entropy to be understood as a measure of the disorder in a system.
                                The third law of thermodynamics states that the entropy of a
                                perfectly crystalline solid at the absolute zero of temperature is
                                zero. The entropy has a measurable absolute value for a system,
                                in contrast to the enthalpy and internal energy. There is no
                                requirement for standard entropies of formation to be defined, as
                                the absolute values of entropy may be used in all calculations.
         Related topics         The first law (B1)     Entropy and change (B5)
                                Enthalpy (B2)          Free energy (B6)
                                Thermochemistry (B3)   Statistical thermodynamics (G8)



                            Reversible and irreversible processes

        Any process involving the transfer of energy from one body to another may take place
        either reversibly or irreversibly. In a reversible process, energy is transferred in such a
        way as to ensure that at any point in the process the transfer er may be reversed by an
        infinitesimally small change in the conditions. The system is therefore in  equilibrium
        throughout the transfer. In practice, this means that the  energy  must  be  transferred