@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:PoissonRatio a qudt:QuantityKind ; dcterms:description "The Poisson Ratio is the negative ratio of transverse to axial strain. In fact, when a sample object is stretched (or squeezed), to an extension (or contraction) in the direction of the applied load, it corresponds a contraction (or extension) in a direction perpendicular to the applied load. The ratio between these two quantities is the Poisson's ratio."^^qudt:LatexString ; qudt:applicableUnit unit:UNITLESS ; qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ; qudt:informativeReference "https://en.wikipedia.org/wiki/Poisson%27s_ratio"^^xsd:anyURI ; qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ; qudt:latexDefinition "$\\mu = \\frac{\\Delta \\delta}{\\Delta l}$, where $\\Delta \\delta$ is the lateral contraction and $\\Delta l$ is the elongation."^^qudt:LatexString ; qudt:latexSymbol "$\\mu$"^^qudt:LatexString ; qudt:plainTextDescription "The Poisson Ratio is the negative ratio of transverse to axial strain. In fact, when a sample object is stretched (or squeezed), to an extension (or contraction) in the direction of the applied load, it corresponds a contraction (or extension) in a direction perpendicular to the applied load. The ratio between these two quantities is the Poisson's ratio." ; rdfs:comment "Applicable units are those of quantitykind:PoissonRatio" ; rdfs:isDefinedBy ; rdfs:label "Poisson Ratio"@en .