Difference between revisions of "Extensive quantity"
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|description='''Extensive quantities''' pertain to a total system, e.g. [[oxygen flow]]. An extensive quantity increases proportional with system size. The magnitude of an extensive quantity is completely additive for non-interacting subsystems, such as mass or flow expressed per defined system. The magnitude of these quantities depends on the extent or size of the system ([[Cohen 2008 IUPAC Green Book |Cohen et al 2008]]). | |description='''Extensive quantities''' pertain to a total system, e.g. [[oxygen flow]]. An extensive quantity increases proportional with system size. The magnitude of an extensive quantity is completely additive for non-interacting subsystems, such as mass or flow expressed per defined system. The magnitude of these quantities depends on the extent or size of the system ([[Cohen 2008 IUPAC Green Book |Cohen et al 2008]]). | ||
|info=[[ | |info=[[BEC 2020.1]], [[Gnaiger_1993_Pure Appl Chem]] | ||
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File:Rate.png |'''Normalization of rate.''' '''(A)''' Cell respiration is normalized for (1) the experimental '''Sample''' (flow per object, mass-specific flux, or cell-volume-specific flux); or (2) for the '''Chamber''' volume. Flow per object and flow per system are extensive quantities. From [[Gnaiger 2019 MitoFit Preprints]]. | |||
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== Compare == | |||
::::* [[Extensive quantity]] | |||
::::* [[Specific quantity]] | |||
::::* [[Intensive quantity]] | |||
{{Template:Keywords: Normalization}} | |||
{{MitoPedia concepts | {{MitoPedia concepts | ||
|mitopedia concept=MiP concept | |mitopedia concept=MiP concept, Ergodynamics | ||
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{{Labeling | {{Labeling | ||
|instruments=Theory | |instruments=Theory | ||
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Latest revision as of 12:17, 16 October 2022
Description
Extensive quantities pertain to a total system, e.g. oxygen flow. An extensive quantity increases proportional with system size. The magnitude of an extensive quantity is completely additive for non-interacting subsystems, such as mass or flow expressed per defined system. The magnitude of these quantities depends on the extent or size of the system (Cohen et al 2008).
Reference: BEC 2020.1, Gnaiger_1993_Pure Appl Chem
Normalization of rate. (A) Cell respiration is normalized for (1) the experimental Sample (flow per object, mass-specific flux, or cell-volume-specific flux); or (2) for the Chamber volume. Flow per object and flow per system are extensive quantities. From Gnaiger 2019 MitoFit Preprints.
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