@prefix rdf: . @prefix rdfs: . @prefix xsd: . @prefix owl: . @prefix constant: . @prefix dc: . @prefix dcterms: . @prefix prov: . @prefix qkdv: . @prefix quantitykind: . @prefix qudt: . @prefix si-quantity: . @prefix skos: . @prefix unit: . @prefix vaem: . @prefix voag: . quantitykind:MassieuFunction a qudt:QuantityKind ; dcterms:description "The Massieu function, $\\Psi$, is defined as: $\\Psi = \\Psi (X_1, \\dots , X_i, Y_{i+1}, \\dots , Y_r )$, where for every system with degree of freedom $r$ one may choose $r$ variables, e.g. , to define a coordinate system, where $X$ and $Y$ are extensive and intensive variables, respectively, and where at least one extensive variable must be within this set in order to define the size of the system. The $(r + 1)^{th}$ variable,$\\Psi$ , is then called the Massieu function."^^qudt:LatexString ; qudt:hasDimensionVector qkdv:A0E0L2I0M1H-1T-2D0 ; qudt:informativeReference "https://en.wikipedia.org/wiki/Massieu_function"^^xsd:anyURI ; qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ; qudt:latexDefinition "$J = -A/T$, where $A$ is Helmholtz energy and $T$ is thermodynamic temperature."^^qudt:LatexString ; qudt:symbol "J" ; qudt:wikidataMatch ; rdfs:isDefinedBy ; rdfs:label "Massieu Function"@en ; rdfs:seeAlso quantitykind:PlanckFunction ; rdfs:seeAlso quantitykind:SpecificEnergy ; rdfs:seeAlso quantitykind:SpecificEnthalpy ; rdfs:seeAlso quantitykind:SpecificGibbsEnergy ; rdfs:seeAlso quantitykind:SpecificHelmholtzEnergy ; rdfs:seeAlso quantitykind:SpecificInternalEnergy .