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A list of all pages that have property "Description" with value "'''Exergonic''' transformations or processes can spontaneously proceed in the forward direction, entailing the irreversible loss of the potential to performe [[work]] (''erg'') with the implication of a positive internal [[entropy production]]. [[Ergodynamic equilibrium]] is obtained when an exergonic (partial) process is compensated by a coupled [[endergonic]] (partial) process, such that the Gibbs energy change of the total transformation is zero. Final [[thermodynamic equilibrium]] is reached when all exergonic processes are exhausted and all [[force]]s are zero. The backward direction of an exergonic process is endergonic. The distinction between exergonic and [[exothermic]] processes is at the heart of [[ergodynamics]], emphasising the concept of [[exergy]] changes, linked to the performance of [[work]], in contrast to [[enthalpy]] changes, linked to [[heat]] or thermal processes, the latter expression being terminologically linked to ''thermo''dynamics.". Since there have been only a few results, also nearby values are displayed.

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Exergonic + ('''Exergonic''' transformations or process … '''Exergonic''' transformations or processes can spontaneously proceed in the forward direction, entailing the irreversible loss of the potential to performe [[work]] (''erg'') with the implication of a positive internal [[entropy production]]. [[Ergodynamic equilibrium]] is obtained when an exergonic (partial) process is compensated by a coupled [[endergonic]] (partial) process, such that the Gibbs energy change of the total transformation is zero. Final [[thermodynamic equilibrium]] is reached when all exergonic processes are exhausted and all [[force]]s are zero. The backward direction of an exergonic process is endergonic. The distinction between exergonic and [[exothermic]] processes is at the heart of [[ergodynamics]], emphasising the concept of [[exergy]] changes, linked to the performance of [[work]], in contrast to [[enthalpy]] changes, linked to [[heat]] or thermal processes, the latter expression being terminologically linked to ''thermo''dynamics.inologically linked to ''thermo''dynamics.)

Exergonic +