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A list of all pages that have property "Description" with value "Intensive quantities are partial derivatives of an extensive quantity by the advancement, dtr''ξ''''X'', of an energy transformation tr; ''example:'' [[Force]]. In contrast to [[extensive quantity |extensive quantities]] which pertain to the entire system and are additive, extensive quantities 'take well defined values at each point of the system' ([[Prigogine 1967 Interscience]]) and are non-additive. Intensive and extensive quantities can be easily discriminated by the units, e.g. [J] for the extensive quantity, in contrast to [J·mol-1] for the corresponding intensive quantity. In the general definition of thermodynamics, intensive quantities are not distinguished from [[specific quantity |specific quantities]] ([[Cohen 2008 IUPAC Green Book]]). [[Ergodynamics]] emphasizes the contrast between specific quantities which are extensive quantities normalized for a variable expressing system size (mass, volume of the system, amount of substance in a system) and intensive quantities which are normalized for the motive unit of a transformation (mass exchanged, volume change of the system, amount of substance reacting in a system; [[Gnaiger 1993 Pure Appl Chem]]). Intensive and specific quantities are both non-additive, take well defined values at each point of the system, and both corresponding quantities are expressed in identical units, e.g. the intensive quantity Gibbs force of a catabolic reaction (such as oxidation; 0 = -1 Glc - 6 O2 + 6 CO2 + 6 H2O), Δk''G''Glc [kJ·mol-1], and the specific quantity Gibbs energy per mole glucose contained in a system, ''G''Glc [kJ·mol-1] (with respect to an arbitrarily defined reference state, such as the reference state of formation or combustion).". Since there have been only a few results, also nearby values are displayed.

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Intensive quantity + (Intensive quantities are partial derivativ … Intensive quantities are partial derivatives of an extensive quantity by the advancement, dtr''ξ''''X'', of an energy transformation tr; ''example:'' [[Force]]. In contrast to [[extensive quantity |extensive quantities]] which pertain to the entire system and are additive, extensive quantities 'take well defined values at each point of the system' ([[Prigogine 1967 Interscience]]) and are non-additive. Intensive and extensive quantities can be easily discriminated by the units, e.g. [J] for the extensive quantity, in contrast to [J·mol-1] for the corresponding intensive quantity. In the general definition of thermodynamics, intensive quantities are not distinguished from [[specific quantity |specific quantities]] ([[Cohen 2008 IUPAC Green Book]]). [[Ergodynamics]] emphasizes the contrast between specific quantities which are extensive quantities normalized for a variable expressing system size (mass, volume of the system, amount of substance in a system) and intensive quantities which are normalized for the motive unit of a transformation (mass exchanged, volume change of the system, amount of substance reacting in a system; [[Gnaiger 1993 Pure Appl Chem]]). Intensive and specific quantities are both non-additive, take well defined values at each point of the system, and both corresponding quantities are expressed in identical units, e.g. the intensive quantity Gibbs force of a catabolic reaction (such as oxidation; 0 = -1 Glc - 6 O2 + 6 CO2 + 6 H2O), Δk''G''Glc [kJ·mol-1], and the specific quantity Gibbs energy per mole glucose contained in a system, ''G''Glc [kJ·mol-1] (with respect to an arbitrarily defined reference state, such as the reference state of formation or combustion).Glc [kJ·mol-1] (with respect to an arbitrarily defined reference state, such as the reference state of formation or combustion).)

Intensive quantity +