# baseURI: http://qudt.org/2.1/vocab/quantitykind
# imports: http://qudt.org/2.1/schema/facade/qudt
# imports: http://qudt.org/2.1/vocab/dimensionvector
@prefix constant: .
@prefix dc: .
@prefix dcterms: .
@prefix mc: .
@prefix owl: .
@prefix prov: .
@prefix qkdv: .
@prefix quantitykind: .
@prefix qudt: .
@prefix rdf: .
@prefix rdfs: .
@prefix skos: .
@prefix soqk: .
@prefix unit: .
@prefix vaem: .
@prefix voag: .
@prefix xsd: .
a owl:Ontology ;
vaem:hasGraphMetadata vaem:GMD_QUDT-QUANTITY-KINDS-ALL ;
rdfs:isDefinedBy ;
rdfs:label "QUDT Quantity Kind Vocabulary Version 2.1.36" ;
owl:imports ;
owl:imports ;
owl:versionIRI ;
.
quantitykind:AbsoluteActivity
a qudt:QuantityKind ;
dcterms:description "The \"Absolute Activity\" is the exponential of the ratio of the chemical potential to \\(RT\\) where \\(R\\) is the gas constant and \\(T\\) the thermodynamic temperature."^^qudt:LatexString ;
qudt:applicableUnit unit:BQ-SEC-PER-M3 ;
qudt:hasDimensionVector qkdv:A0E0L-3I0M0H0T0D0 ;
qudt:informativeReference "http://goldbook.iupac.org/A00019.html"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\lambda_B = e^{\\frac{\\mu_B}{RT}}\\), where \\(\\mu_B\\) is the chemical potential of substance \\(B\\), \\(R\\) is the molar gas constant, and \\(T\\) is thermodynamic temperature."^^qudt:LatexString ;
qudt:latexSymbol "\\(\\lambda_B\\)"^^qudt:LatexString ;
rdfs:isDefinedBy ;
rdfs:label "Absolute Activity"@en ;
skos:broader quantitykind:InverseVolume ;
.
quantitykind:AbsoluteHumidity
a qudt:QuantityKind ;
dcterms:description "\"Absolute Humidity\" is an amount of water vapor, usually discussed per unit volume. Absolute humidity in air ranges from zero to roughly 30 grams per cubic meter when the air is saturated at \\(30 ^\\circ C\\). The absolute humidity changes as air temperature or pressure changes. This is very inconvenient for chemical engineering calculations, e.g. for clothes dryers, where temperature can vary considerably. As a result, absolute humidity is generally defined in chemical engineering as mass of water vapor per unit mass of dry air, also known as the mass mixing ratio, which is much more rigorous for heat and mass balance calculations. Mass of water per unit volume as in the equation above would then be defined as volumetric humidity. Because of the potential confusion."^^qudt:LatexString ;
qudt:applicableUnit unit:DEGREE_BALLING ;
qudt:applicableUnit unit:DEGREE_BAUME ;
qudt:applicableUnit unit:DEGREE_BAUME_US_HEAVY ;
qudt:applicableUnit unit:DEGREE_BAUME_US_LIGHT ;
qudt:applicableUnit unit:DEGREE_BRIX ;
qudt:applicableUnit unit:DEGREE_OECHSLE ;
qudt:applicableUnit unit:DEGREE_PLATO ;
qudt:applicableUnit unit:DEGREE_TWADDELL ;
qudt:applicableUnit unit:FemtoGM-PER-L ;
qudt:applicableUnit unit:GM-PER-CentiM3 ;
qudt:applicableUnit unit:GM-PER-DeciL ;
qudt:applicableUnit unit:GM-PER-DeciM3 ;
qudt:applicableUnit unit:GM-PER-L ;
qudt:applicableUnit unit:GM-PER-M3 ;
qudt:applicableUnit unit:GM-PER-MilliL ;
qudt:applicableUnit unit:GRAIN-PER-GAL ;
qudt:applicableUnit unit:GRAIN-PER-GAL_US ;
qudt:applicableUnit unit:GRAIN-PER-M3 ;
qudt:applicableUnit unit:KiloGM-PER-CentiM3 ;
qudt:applicableUnit unit:KiloGM-PER-DeciM3 ;
qudt:applicableUnit unit:KiloGM-PER-L ;
qudt:applicableUnit unit:KiloGM-PER-M3 ;
qudt:applicableUnit unit:LB-PER-FT3 ;
qudt:applicableUnit unit:LB-PER-GAL ;
qudt:applicableUnit unit:LB-PER-GAL_UK ;
qudt:applicableUnit unit:LB-PER-GAL_US ;
qudt:applicableUnit unit:LB-PER-IN3 ;
qudt:applicableUnit unit:LB-PER-M3 ;
qudt:applicableUnit unit:LB-PER-YD3 ;
qudt:applicableUnit unit:MegaGM-PER-M3 ;
qudt:applicableUnit unit:MicroGM-PER-DeciL ;
qudt:applicableUnit unit:MicroGM-PER-L ;
qudt:applicableUnit unit:MicroGM-PER-M3 ;
qudt:applicableUnit unit:MicroGM-PER-MilliL ;
qudt:applicableUnit unit:MilliGM-PER-DeciL ;
qudt:applicableUnit unit:MilliGM-PER-L ;
qudt:applicableUnit unit:MilliGM-PER-M3 ;
qudt:applicableUnit unit:MilliGM-PER-MilliL ;
qudt:applicableUnit unit:NanoGM-PER-DeciL ;
qudt:applicableUnit unit:NanoGM-PER-L ;
qudt:applicableUnit unit:NanoGM-PER-M3 ;
qudt:applicableUnit unit:NanoGM-PER-MicroL ;
qudt:applicableUnit unit:NanoGM-PER-MilliL ;
qudt:applicableUnit unit:OZ-PER-GAL ;
qudt:applicableUnit unit:OZ-PER-GAL_UK ;
qudt:applicableUnit unit:OZ-PER-GAL_US ;
qudt:applicableUnit unit:OZ-PER-IN3 ;
qudt:applicableUnit unit:OZ-PER-YD3 ;
qudt:applicableUnit unit:PicoGM-PER-L ;
qudt:applicableUnit unit:PicoGM-PER-MilliL ;
qudt:applicableUnit unit:PlanckDensity ;
qudt:applicableUnit unit:SLUG-PER-FT3 ;
qudt:applicableUnit unit:TONNE-PER-M3 ;
qudt:applicableUnit unit:TON_LONG-PER-YD3 ;
qudt:applicableUnit unit:TON_Metric-PER-M3 ;
qudt:applicableUnit unit:TON_SHORT-PER-YD3 ;
qudt:applicableUnit unit:TON_UK-PER-YD3 ;
qudt:applicableUnit unit:TON_US-PER-YD3 ;
qudt:hasDimensionVector qkdv:A0E0L-3I0M1H0T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Humidity"^^xsd:anyURI ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Humidity#Absolute_humidity"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ;
qudt:latexDefinition """\\(AH = \\frac{\\mathcal{M}_\\omega}{\\vee_{net}}\\),
where \\(\\mathcal{M}_\\omega\\) is the mass of water vapor per unit volume of total air and \\(\\vee_{net}\\) is water vapor mixture."""^^qudt:LatexString ;
qudt:symbol "AH" ;
rdfs:isDefinedBy ;
rdfs:label "Absolute Humidity"@en ;
rdfs:seeAlso quantitykind:RelativeHumidity ;
skos:broader quantitykind:Density ;
.
quantitykind:AbsoluteTypographicMeasurement
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T0D0 ;
qudt:iec61360Code "0112/2///62720#UAD372" ;
rdfs:isDefinedBy ;
rdfs:label "absolute typographic measurement" ;
.
quantitykind:AbsorbedDose
a qudt:QuantityKind ;
dcterms:description "\"Absorbed Dose\" (also known as Total Ionizing Dose, TID) is a measure of the energy deposited in a medium by ionizing radiation. It is equal to the energy deposited per unit mass of medium, and so has the unit \\(J/kg\\), which is given the special name Gray (\\(Gy\\))."^^qudt:LatexString ;
qudt:applicableUnit unit:GRAY ;
qudt:applicableUnit unit:MicroGRAY ;
qudt:applicableUnit unit:MilliGRAY ;
qudt:applicableUnit unit:MilliRAD_R ;
qudt:applicableUnit unit:RAD_R ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Absorbed_dose"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T-2D0 ;
qudt:iec61360Code "0112/2///62720#UAD000" ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Absorbed_dose"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:latexDefinition "\\(D = \\frac{d\\bar{\\varepsilon}}{dm}\\), where \\(d\\bar{\\varepsilon}\\) is the mean energy imparted by ionizing radiation to an element of irradiated matter with the mass \\(dm\\)."^^qudt:LatexString ;
qudt:symbol "D" ;
rdfs:comment "Note that the absorbed dose is not a good indicator of the likely biological effect. 1 Gy of alpha radiation would be much more biologically damaging than 1 Gy of photon radiation for example. Appropriate weighting factors can be applied reflecting the different relative biological effects to find the equivalent dose. The risk of stoctic effects due to radiation exposure can be quantified using the effective dose, which is a weighted average of the equivalent dose to each organ depending upon its radiosensitivity. When ionising radiation is used to treat cancer, the doctor will usually prescribe the radiotherapy treatment in Gy. When risk from ionising radiation is being discussed, a related unit, the Sievert is used." ;
rdfs:isDefinedBy ;
rdfs:label "Absorbed Dose"@en ;
skos:broader quantitykind:SpecificEnergy ;
.
quantitykind:AbsorbedDoseRate
a qudt:QuantityKind ;
dcterms:description "\"Absorbed Dose Rate\" is the absorbed dose of ionizing radiation imparted at a given location per unit of time (second, minute, hour, or day)."^^rdf:HTML ;
qudt:applicableUnit unit:ERG-PER-GM-SEC ;
qudt:applicableUnit unit:GRAY-PER-SEC ;
qudt:applicableUnit unit:MicroSV-PER-HR ;
qudt:applicableUnit unit:MilliW-PER-MilliGM ;
qudt:applicableUnit unit:W-PER-GM ;
qudt:applicableUnit unit:W-PER-KiloGM ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T-3D0 ;
qudt:iec61360Code "0112/2///62720#UAD001" ;
qudt:informativeReference "http://www.answers.com/topic/absorbed-dose-rate"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\dot{D} = \\frac{dD}{dt}\\), where \\(dD\\) is the increment of absorbed dose during time interval with duration \\(dt\\)."^^qudt:LatexString ;
qudt:latexSymbol "\\(\\dot{D}\\)"^^qudt:LatexString ;
qudt:plainTextDescription "\"Absorbed Dose Rate\" is the absorbed dose of ionizing radiation imparted at a given location per unit of time (second, minute, hour, or day)." ;
rdfs:isDefinedBy ;
rdfs:label "Absorbed Dose Rate"@en ;
.
quantitykind:Absorptance
a qudt:QuantityKind ;
dcterms:description "Absorptance is the ratio of the radiation absorbed by a surface to that incident upon it. Also known as absorbance."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Absorbance"^^xsd:anyURI ;
qudt:informativeReference "https://en.wikipedia.org/wiki/Absorptance"^^xsd:anyURI ;
qudt:informativeReference "https://www.researchgate.net/post/Absorptance_or_absorbance"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\alpha = \\frac{\\Phi_a}{\\Phi_m}\\), where \\(\\Phi_a\\) is the absorbed radiant flux or the absorbed luminous flux, and \\(\\Phi_m\\) is the radiant flux or luminous flux of the incident radiation."^^qudt:LatexString ;
qudt:latexSymbol "\\(\\alpha\\)"^^qudt:LatexString ;
qudt:plainTextDescription "Absorptance is the ratio of the radiation absorbed by a surface to that incident upon it. Also known as absorbance." ;
vaem:todo "belongs to SOQ-ISO" ;
rdfs:isDefinedBy ;
rdfs:label "Absorptance"@en ;
.
quantitykind:Acceleration
a qudt:QuantityKind ;
dcterms:description "Acceleration is the (instantaneous) rate of change of velocity. Acceleration may be either linear acceleration, or angular acceleration. It is a vector quantity with dimension \\(length/time^{2}\\) for linear acceleration, or in the case of angular acceleration, with dimension \\(angle/time^{2}\\). In SI units, linear acceleration is measured in \\(meters/second^{2}\\) (\\(m \\cdot s^{-2}\\)) and angular acceleration is measured in \\(radians/second^{2}\\). In physics, any increase or decrease in speed is referred to as acceleration and similarly, motion in a circle at constant speed is also an acceleration, since the direction component of the velocity is changing."^^qudt:LatexString ;
qudt:applicableUnit unit:CentiM-PER-SEC2 ;
qudt:applicableUnit unit:FT-PER-SEC2 ;
qudt:applicableUnit unit:G ;
qudt:applicableUnit unit:GALILEO ;
qudt:applicableUnit unit:IN-PER-SEC2 ;
qudt:applicableUnit unit:KN-PER-SEC ;
qudt:applicableUnit unit:KiloPA-M2-PER-GM ;
qudt:applicableUnit unit:M-PER-SEC2 ;
qudt:applicableUnit unit:MicroG ;
qudt:applicableUnit unit:MilliG ;
qudt:applicableUnit unit:MilliGAL ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Acceleration"^^xsd:anyURI ;
qudt:exactMatch quantitykind:LinearAcceleration ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T-2D0 ;
qudt:iec61360Code "0112/2///62720#UAD002" ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Acceleration"^^xsd:anyURI ;
rdfs:isDefinedBy ;
rdfs:label "Beschleunigung"@de ;
rdfs:label "Pecutan"@ms ;
rdfs:label "Zrychlení"@cs ;
rdfs:label "acceleratio"@la ;
rdfs:label "acceleration"@en ;
rdfs:label "accelerazione"@it ;
rdfs:label "accelerație"@ro ;
rdfs:label "accélération"@fr ;
rdfs:label "aceleración"@es ;
rdfs:label "aceleração"@pt ;
rdfs:label "ivme"@tr ;
rdfs:label "pospešek"@sl ;
rdfs:label "przyspieszenie"@pl ;
rdfs:label "Όγκος"@el ;
rdfs:label "Ускоре́ние"@ru ;
rdfs:label "التسارع"@ar ;
rdfs:label "شتاب"@fa ;
rdfs:label "त्वरण"@hi ;
rdfs:label "加速度"@ja ;
rdfs:label "加速度"@zh ;
.
quantitykind:AccelerationOfGravity
a qudt:QuantityKind ;
dcterms:description "The acceleration of freely falling bodies under the influence of terrestrial gravity, equal to approximately 9.81 meters (32 feet) per second per second."^^rdf:HTML ;
qudt:applicableUnit unit:CentiM-PER-SEC2 ;
qudt:applicableUnit unit:FT-PER-SEC2 ;
qudt:applicableUnit unit:G ;
qudt:applicableUnit unit:GALILEO ;
qudt:applicableUnit unit:IN-PER-SEC2 ;
qudt:applicableUnit unit:KN-PER-SEC ;
qudt:applicableUnit unit:KiloPA-M2-PER-GM ;
qudt:applicableUnit unit:M-PER-SEC2 ;
qudt:applicableUnit unit:MicroG ;
qudt:applicableUnit unit:MilliG ;
qudt:applicableUnit unit:MilliGAL ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T-2D0 ;
qudt:plainTextDescription "The acceleration of freely falling bodies under the influence of terrestrial gravity, equal to approximately 9.81 meters (32 feet) per second per second." ;
qudt:symbol "g" ;
rdfs:isDefinedBy ;
rdfs:label "Acceleration Of Gravity"@en ;
skos:broader quantitykind:Acceleration ;
.
quantitykind:AcceptorDensity
a qudt:QuantityKind ;
dcterms:description "\"Acceptor Density\" is the number per volume of acceptor levels."^^rdf:HTML ;
qudt:applicableUnit unit:NUM-PER-L ;
qudt:applicableUnit unit:NUM-PER-M3 ;
qudt:applicableUnit unit:NUM-PER-MicroL ;
qudt:applicableUnit unit:NUM-PER-MilliM3 ;
qudt:applicableUnit unit:NUM-PER-NanoL ;
qudt:applicableUnit unit:NUM-PER-PicoL ;
qudt:applicableUnit unit:PER-M3 ;
qudt:hasDimensionVector qkdv:A0E0L-3I0M0H0T0D0 ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ;
qudt:plainTextDescription "\"Acceptor Density\" is the number per volume of acceptor levels." ;
qudt:symbol "n_a" ;
rdfs:isDefinedBy ;
rdfs:label "Acceptor Density"@en ;
skos:broader quantitykind:NumberDensity ;
.
quantitykind:AcceptorIonizationEnergy
a qudt:QuantityKind ;
dcterms:description "\"Acceptor Ionization Energy\" is the ionization energy of an acceptor."^^rdf:HTML ;
qudt:applicableUnit unit:AttoJ ;
qudt:applicableUnit unit:BTU_IT ;
qudt:applicableUnit unit:BTU_TH ;
qudt:applicableUnit unit:CAL_IT ;
qudt:applicableUnit unit:CAL_TH ;
qudt:applicableUnit unit:ERG ;
qudt:applicableUnit unit:EV ;
qudt:applicableUnit unit:E_h ;
qudt:applicableUnit unit:ExaJ ;
qudt:applicableUnit unit:FT-LB_F ;
qudt:applicableUnit unit:FT-PDL ;
qudt:applicableUnit unit:FemtoJ ;
qudt:applicableUnit unit:GigaEV ;
qudt:applicableUnit unit:GigaJ ;
qudt:applicableUnit unit:GigaW-HR ;
qudt:applicableUnit unit:J ;
qudt:applicableUnit unit:KiloBTU_IT ;
qudt:applicableUnit unit:KiloBTU_TH ;
qudt:applicableUnit unit:KiloCAL ;
qudt:applicableUnit unit:KiloEV ;
qudt:applicableUnit unit:KiloJ ;
qudt:applicableUnit unit:KiloV-A-HR ;
qudt:applicableUnit unit:KiloV-A_Reactive-HR ;
qudt:applicableUnit unit:KiloW-HR ;
qudt:applicableUnit unit:MegaEV ;
qudt:applicableUnit unit:MegaJ ;
qudt:applicableUnit unit:MegaTOE ;
qudt:applicableUnit unit:MegaV-A-HR ;
qudt:applicableUnit unit:MegaV-A_Reactive-HR ;
qudt:applicableUnit unit:MegaW-HR ;
qudt:applicableUnit unit:MicroJ ;
qudt:applicableUnit unit:MilliJ ;
qudt:applicableUnit unit:PetaJ ;
qudt:applicableUnit unit:PlanckEnergy ;
qudt:applicableUnit unit:QUAD ;
qudt:applicableUnit unit:THM_EEC ;
qudt:applicableUnit unit:THM_US ;
qudt:applicableUnit unit:TOE ;
qudt:applicableUnit unit:TeraJ ;
qudt:applicableUnit unit:TeraW-HR ;
qudt:applicableUnit unit:TonEnergy ;
qudt:applicableUnit unit:V-A-HR ;
qudt:applicableUnit unit:V-A_Reactive-HR ;
qudt:applicableUnit unit:W-HR ;
qudt:applicableUnit unit:W-SEC ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-2D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Ionization_energy"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ;
qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ;
qudt:plainTextDescription "\"Acceptor Ionization Energy\" is the ionization energy of an acceptor." ;
qudt:symbol "E_a" ;
rdfs:isDefinedBy ;
rdfs:label "Acceptor Ionization Energy"@en ;
skos:broader quantitykind:IonizationEnergy ;
skos:closeMatch quantitykind:DonorIonizationEnergy ;
.
quantitykind:Acidity
a qudt:QuantityKind ;
dcterms:description "Chemicals or substances having a pH less than 7 are said to be acidic; lower pH means higher acidity."^^rdf:HTML ;
qudt:applicableUnit unit:PH ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "https://en.wikipedia.org/wiki/Acid"^^xsd:anyURI ;
qudt:informativeReference "https://en.wikipedia.org/wiki/PH"^^xsd:anyURI ;
qudt:plainTextDescription "Chemicals or substances having a pH less than 7 are said to be acidic; lower pH means higher acidity." ;
rdfs:isDefinedBy ;
rdfs:label "Acidity"@en ;
skos:broader quantitykind:PH ;
.
quantitykind:AcousticImpedance
a qudt:QuantityKind ;
dcterms:description "Acoustic impedance at a surface is the complex quotient of the average sound pressure over that surface by the sound volume flow rate through that surface."^^rdf:HTML ;
qudt:applicableUnit unit:PA-SEC-PER-M ;
qudt:hasDimensionVector qkdv:A0E0L-2I0M1H0T-1D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Acoustic_impedance"^^xsd:anyURI ;
qudt:latexDefinition "\\(Z_a= \\frac{p}{q} = \\frac{p}{vS}\\), where \\(p\\) is the sound pressure, \\(q\\) is the sound volume velocity, \\(v\\) is sound particle velocity, and \\(S\\) is the surface area through which an acoustic wave of frequence \\(f\\) propagates."^^qudt:LatexString ;
qudt:plainTextDescription "Acoustic impedance at a surface is the complex quotient of the average sound pressure over that surface by the sound volume flow rate through that surface." ;
qudt:symbol "Z" ;
rdfs:isDefinedBy ;
rdfs:label "Acoustic Impediance"@en ;
skos:broader quantitykind:MassPerAreaTime ;
.
quantitykind:Action
a qudt:QuantityKind ;
dcterms:description """An action is usually an integral over time. But for action pertaining to fields, it may be integrated over spatial variables as well. In some cases, the action is integrated along the path followed by the physical system. If the action is represented as an integral over time, taken a the path of the system between the initial time and the final time of the development of the system.
The evolution of a physical system between two states is determined by requiring the action be minimized or, more generally, be stationary for small perturbations about the true evolution. This requirement leads to differential equations that describe the true evolution. Conversely, an action principle is a method for reformulating differential equations of motion for a physical system as an equivalent integral equation. Although several variants have been defined (see below), the most commonly used action principle is Hamilton's principle.""" ;
qudt:applicableUnit unit:AttoJ-SEC ;
qudt:applicableUnit unit:J-SEC ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-1D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Action_(physics)"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ;
qudt:latexDefinition "\\(S = \\int Ldt\\), where \\(L\\) is the Lagrange function and \\(t\\) is time."^^qudt:LatexString ;
qudt:plainTextDescription """An action is usually an integral over time. But for action pertaining to fields, it may be integrated over spatial variables as well. In some cases, the action is integrated along the path followed by the physical system. If the action is represented as an integral over time, taken a the path of the system between the initial time and the final time of the development of the system.
The evolution of a physical system between two states is determined by requiring the action be minimized or, more generally, be stationary for small perturbations about the true evolution. This requirement leads to differential equations that describe the true evolution. Conversely, an action principle is a method for reformulating differential equations of motion for a physical system as an equivalent integral equation. Although several variants have been defined (see below), the most commonly used action principle is Hamilton's principle.""" ;
qudt:symbol "S" ;
rdfs:isDefinedBy ;
rdfs:label "Action"@en ;
.
quantitykind:ActionTime
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T1D0 ;
rdfs:comment "Action Time (sec) " ;
rdfs:isDefinedBy ;
rdfs:label "Action Time"@en ;
.
quantitykind:ActiveEnergy
a qudt:QuantityKind ;
dcterms:description "\"Active Energy\" is the electrical energy transformable into some other form of energy."^^rdf:HTML ;
qudt:abbreviation "active-energy" ;
qudt:applicableUnit unit:AttoJ ;
qudt:applicableUnit unit:BTU_IT ;
qudt:applicableUnit unit:BTU_TH ;
qudt:applicableUnit unit:CAL_IT ;
qudt:applicableUnit unit:CAL_TH ;
qudt:applicableUnit unit:ERG ;
qudt:applicableUnit unit:EV ;
qudt:applicableUnit unit:E_h ;
qudt:applicableUnit unit:ExaJ ;
qudt:applicableUnit unit:FT-LB_F ;
qudt:applicableUnit unit:FT-PDL ;
qudt:applicableUnit unit:FemtoJ ;
qudt:applicableUnit unit:GigaEV ;
qudt:applicableUnit unit:GigaJ ;
qudt:applicableUnit unit:GigaW-HR ;
qudt:applicableUnit unit:J ;
qudt:applicableUnit unit:KiloBTU_IT ;
qudt:applicableUnit unit:KiloBTU_TH ;
qudt:applicableUnit unit:KiloCAL ;
qudt:applicableUnit unit:KiloEV ;
qudt:applicableUnit unit:KiloJ ;
qudt:applicableUnit unit:KiloV-A-HR ;
qudt:applicableUnit unit:KiloV-A_Reactive-HR ;
qudt:applicableUnit unit:KiloW-HR ;
qudt:applicableUnit unit:MegaEV ;
qudt:applicableUnit unit:MegaJ ;
qudt:applicableUnit unit:MegaTOE ;
qudt:applicableUnit unit:MegaV-A-HR ;
qudt:applicableUnit unit:MegaV-A_Reactive-HR ;
qudt:applicableUnit unit:MegaW-HR ;
qudt:applicableUnit unit:MicroJ ;
qudt:applicableUnit unit:MilliJ ;
qudt:applicableUnit unit:PetaJ ;
qudt:applicableUnit unit:PlanckEnergy ;
qudt:applicableUnit unit:QUAD ;
qudt:applicableUnit unit:THM_EEC ;
qudt:applicableUnit unit:THM_US ;
qudt:applicableUnit unit:TOE ;
qudt:applicableUnit unit:TeraJ ;
qudt:applicableUnit unit:TeraW-HR ;
qudt:applicableUnit unit:TonEnergy ;
qudt:applicableUnit unit:V-A-HR ;
qudt:applicableUnit unit:V-A_Reactive-HR ;
qudt:applicableUnit unit:W-HR ;
qudt:applicableUnit unit:W-SEC ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-2D0 ;
qudt:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=601-01-19"^^xsd:anyURI ;
qudt:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ;
qudt:latexDefinition "\\(W = \\int_{t_1}^{t_2} p dt\\), where \\(p\\) is instantaneous power and the integral interval is the time interval from \\(t_1\\) to \\(t_2\\)."^^qudt:LatexString ;
qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ;
qudt:plainTextDescription "\"Active Energy\" is the electrical energy transformable into some other form of energy." ;
qudt:symbol "W" ;
rdfs:isDefinedBy ;
rdfs:label "Active Energy"@en ;
rdfs:seeAlso quantitykind:InstantaneousPower ;
skos:broader quantitykind:Energy ;
.
quantitykind:ActivePower
a qudt:QuantityKind ;
dcterms:description "\\(Active Power\\) is, under periodic conditions, the mean value, taken over one period \\(T\\), of the instantaneous power \\(p\\). In complex notation, \\(P = \\mathbf{Re} \\; \\underline{S}\\), where \\(\\underline{S}\\) is \\(\\textit{complex power}\\)\"."^^qudt:LatexString ;
qudt:applicableUnit unit:FT-LB_F-PER-HR ;
qudt:applicableUnit unit:FT-LB_F-PER-MIN ;
qudt:applicableUnit unit:FT-LB_F-PER-SEC ;
qudt:applicableUnit unit:GigaW ;
qudt:applicableUnit unit:HP_Boiler ;
qudt:applicableUnit unit:HP_H2O ;
qudt:applicableUnit unit:KiloW ;
qudt:applicableUnit unit:MegaW ;
qudt:applicableUnit unit:MicroW ;
qudt:applicableUnit unit:MilliW ;
qudt:applicableUnit unit:NanoW ;
qudt:applicableUnit unit:PicoW ;
qudt:applicableUnit unit:TeraW ;
qudt:applicableUnit unit:W ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-3D0 ;
qudt:iec61360Code "0112/2///62720#UAD003" ;
qudt:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-11-42"^^xsd:anyURI ;
qudt:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ;
qudt:latexDefinition "\\(P = \\frac{1}{T}\\int_{0}^{T} pdt\\), where \\(T\\) is the period and \\(p\\) is instantaneous power."^^qudt:LatexString ;
qudt:symbol "P" ;
rdfs:isDefinedBy ;
rdfs:label "Active Power"@en ;
rdfs:seeAlso quantitykind:ComplexPower ;
rdfs:seeAlso quantitykind:InstantaneousPower ;
skos:broader quantitykind:ComplexPower ;
.
quantitykind:Activity
a qudt:QuantityKind ;
dcterms:description "\"Activity\" is the number of decays per unit time of a radioactive sample, the term used to characterise the number of nuclei which disintegrate in a radioactive substance per unit time. Activity is usually measured in Becquerels (\\(Bq\\)), where 1 \\(Bq\\) is 1 disintegration per second, in honor of the scientist Henri Becquerel."^^qudt:LatexString ;
qudt:applicableUnit unit:BQ ;
qudt:applicableUnit unit:Ci ;
qudt:applicableUnit unit:GigaBQ ;
qudt:applicableUnit unit:KiloBQ ;
qudt:applicableUnit unit:KiloCi ;
qudt:applicableUnit unit:MegaBQ ;
qudt:applicableUnit unit:MicroBQ ;
qudt:applicableUnit unit:MicroCi ;
qudt:applicableUnit unit:MilliBQ ;
qudt:applicableUnit unit:MilliCi ;
qudt:applicableUnit unit:NanoBQ ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Radioactive_decay"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T-1D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Mass_number"^^xsd:anyURI ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Radioactive_decay"^^xsd:anyURI ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Radioactive_decay#Radioactive_decay_rates"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:latexDefinition """\\(A = Z + N\\), where \\(Z\\) is the atomic number and \\(N\\) is the neutron number.
Variation \\(dN\\) of spontaneous number of nuclei \\(N\\) in a particular energy state, in a sample of radionuclide, due to spontaneous nuclear transitions from this state during an infinitesimal time interval, divided by its duration \\(dt\\), thus \\(A = -\\frac{dN}{dt}\\)."""^^qudt:LatexString ;
qudt:symbol "A" ;
rdfs:isDefinedBy ;
rdfs:label "Activity"@en ;
skos:broader quantitykind:StochasticProcess ;
.
quantitykind:ActivityCoefficient
a qudt:QuantityKind ;
dcterms:description "An \"Activity Coefficient\" is a factor used in thermodynamics to account for deviations from ideal behaviour in a mixture of chemical substances. In an ideal mixture, the interactions between each pair of chemical species are the same (or more formally, the enthalpy change of solution is zero) and, as a result, properties of the mixtures can be expressed directly in terms of simple concentrations or partial pressures of the substances present e.g. Raoult's law. Deviations from ideality are accommodated by modifying the concentration by an activity coefficient. "^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Activity_coefficient"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ;
qudt:latexDefinition "\\(f_B = \\frac{\\lambda_B}{(\\lambda_B^*x_B)}\\), where \\(\\lambda_B\\) the absolute activity of substance \\(B\\), \\(\\lambda_B^*\\) is the absolute activity of the pure substance \\(B\\) at the same temperature and pressure, and \\(x_B\\) is the amount-of-substance fraction of substance \\(B\\)."^^qudt:LatexString ;
qudt:plainTextDescription "An \"Activity Coefficient\" is a factor used in thermodynamics to account for deviations from ideal behaviour in a mixture of chemical substances. In an ideal mixture, the interactions between each pair of chemical species are the same (or more formally, the enthalpy change of solution is zero) and, as a result, properties of the mixtures can be expressed directly in terms of simple concentrations or partial pressures of the substances present e.g. Raoult's law. Deviations from ideality are accommodated by modifying the concentration by an activity coefficient. " ;
qudt:symbol "f_B" ;
rdfs:isDefinedBy ;
rdfs:label "Activity Coefficient"@en ;
.
quantitykind:ActivityConcentration
a qudt:QuantityKind ;
dcterms:description "The \"Activity Concentration\", also known as volume activity, and activity density, is ."^^rdf:HTML ;
qudt:applicableUnit unit:BQ-PER-L ;
qudt:applicableUnit unit:BQ-PER-M3 ;
qudt:applicableUnit unit:MicroBQ-PER-L ;
qudt:applicableUnit unit:MilliBQ-PER-L ;
qudt:applicableUnit unit:NanoBQ-PER-L ;
qudt:hasDimensionVector qkdv:A0E0L-3I0M0H0T-1D0 ;
qudt:informativeReference "http://www.euronuclear.org/info/encyclopedia/activityconcentration.htm"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:latexDefinition "\\(c_A = \\frac{A}{V}\\), where \\(A\\) is the activity of a sample and \\(V\\) is its volume."^^qudt:LatexString ;
qudt:plainTextDescription "The \"Activity Concentration\", also known as volume activity, and activity density, is ." ;
qudt:symbol "c_A" ;
rdfs:isDefinedBy ;
rdfs:label "Activity Concentration"@en ;
.
quantitykind:ActivityRelatedByMass
a qudt:QuantityKind ;
dcterms:description "quantitative Angabe der Radioaktivität einer Menge eines Radionuklids in einem bestimmten Energiezustand zu einem gegebenen Zeitpunkt dividiert durch die zugehörige Masse dieser Menge"@de ;
dcterms:description "quantitative data of the radioactivity of the amount of a radionuclide in a particular state of energy at a defined point in time, divided by the related mass of this quantity"@en ;
qudt:hasDimensionVector qkdv:A0E0L0I0M-1H0T-1D0 ;
qudt:symbol "0173-1#Z4-BAJ342#002" ;
rdfs:isDefinedBy ;
rdfs:label "activity related by mass"@en-US ;
.
quantitykind:ActivityThresholds
a qudt:QuantityKind ;
dcterms:description "\"Activity Thresholds\" are thresholds of sensitivity for radioactivity."^^rdf:HTML ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T-2D0 ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ;
qudt:latexSymbol "\\(\\overline{T_t}\\)"^^qudt:LatexString ;
qudt:plainTextDescription "\"Activity Thresholds\" are thresholds of sensitivity for radioactivity." ;
rdfs:isDefinedBy ;
rdfs:label "Activity Thresholds"@en ;
.
quantitykind:Adaptation
a qudt:QuantityKind ;
dcterms:description "\"Adaptation\" is the recovery of visual ability following exposure to light (dark adaptation), usually measured in units of time."^^rdf:HTML ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T1D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Neural_adaptation#Visual"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ;
qudt:plainTextDescription "\"Adaptation\" is the recovery of visual ability following exposure to light (dark adaptation)." ;
rdfs:isDefinedBy ;
rdfs:label "Adaptation"@en ;
.
quantitykind:Admittance
a qudt:QuantityKind ;
dcterms:description "\"Admittance\" is a measure of how easily a circuit or device will allow a current to flow. It is defined as the inverse of the impedance (\\(Z\\)). "^^qudt:LatexString ;
qudt:applicableUnit unit:DeciS ;
qudt:applicableUnit unit:KiloS ;
qudt:applicableUnit unit:MHO ;
qudt:applicableUnit unit:MegaS ;
qudt:applicableUnit unit:MicroMHO ;
qudt:applicableUnit unit:MicroS ;
qudt:applicableUnit unit:MilliS ;
qudt:applicableUnit unit:NanoS ;
qudt:applicableUnit unit:PicoS ;
qudt:applicableUnit unit:S ;
qudt:hasDimensionVector qkdv:A0E2L-2I0M-1H0T3D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Admittance"^^xsd:anyURI ;
qudt:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-12-51"^^xsd:anyURI ;
qudt:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ;
qudt:latexDefinition "\\(Y = \\frac{1}{Z}\\), where \\(Z\\) is impedance."^^qudt:LatexString ;
qudt:latexSymbol "\\(Y\\)"^^qudt:LatexString ;
rdfs:isDefinedBy ;
rdfs:label "Admittance"@en ;
rdfs:seeAlso quantitykind:Impedance ;
.
quantitykind:AlphaDisintegrationEnergy
a qudt:QuantityKind ;
dcterms:description "The \"Alpha Disintegration Energy\" is the sum of the kinetic energy of the \\(\\alpha\\)-particle produced in the disintegration process and the recoil energy of the product atom in the reference frame in which the emitting nucleus is at rest before its disintegration."^^qudt:LatexString ;
qudt:applicableUnit unit:AttoJ ;
qudt:applicableUnit unit:BTU_IT ;
qudt:applicableUnit unit:BTU_TH ;
qudt:applicableUnit unit:CAL_IT ;
qudt:applicableUnit unit:CAL_TH ;
qudt:applicableUnit unit:ERG ;
qudt:applicableUnit unit:EV ;
qudt:applicableUnit unit:E_h ;
qudt:applicableUnit unit:ExaJ ;
qudt:applicableUnit unit:FT-LB_F ;
qudt:applicableUnit unit:FT-PDL ;
qudt:applicableUnit unit:FemtoJ ;
qudt:applicableUnit unit:GigaEV ;
qudt:applicableUnit unit:GigaJ ;
qudt:applicableUnit unit:GigaW-HR ;
qudt:applicableUnit unit:J ;
qudt:applicableUnit unit:KiloBTU_IT ;
qudt:applicableUnit unit:KiloBTU_TH ;
qudt:applicableUnit unit:KiloCAL ;
qudt:applicableUnit unit:KiloEV ;
qudt:applicableUnit unit:KiloJ ;
qudt:applicableUnit unit:KiloV-A-HR ;
qudt:applicableUnit unit:KiloV-A_Reactive-HR ;
qudt:applicableUnit unit:KiloW-HR ;
qudt:applicableUnit unit:MegaEV ;
qudt:applicableUnit unit:MegaJ ;
qudt:applicableUnit unit:MegaTOE ;
qudt:applicableUnit unit:MegaV-A-HR ;
qudt:applicableUnit unit:MegaV-A_Reactive-HR ;
qudt:applicableUnit unit:MegaW-HR ;
qudt:applicableUnit unit:MicroJ ;
qudt:applicableUnit unit:MilliJ ;
qudt:applicableUnit unit:PetaJ ;
qudt:applicableUnit unit:PlanckEnergy ;
qudt:applicableUnit unit:QUAD ;
qudt:applicableUnit unit:THM_EEC ;
qudt:applicableUnit unit:THM_US ;
qudt:applicableUnit unit:TOE ;
qudt:applicableUnit unit:TeraJ ;
qudt:applicableUnit unit:TeraW-HR ;
qudt:applicableUnit unit:TonEnergy ;
qudt:applicableUnit unit:V-A-HR ;
qudt:applicableUnit unit:V-A_Reactive-HR ;
qudt:applicableUnit unit:W-HR ;
qudt:applicableUnit unit:W-SEC ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-2D0 ;
qudt:latexSymbol "\\(Q_a\\)"^^qudt:LatexString ;
qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:plainTextDescription "The \"Alpha Disintegration Energy\" is the sum of the kinetic energy of the alpha-particle produced in the disintegration process and the recoil energy of the product atom in the reference frame in which the emitting nucleus is at rest before its disintegration." ;
rdfs:isDefinedBy ;
rdfs:label "Alpha Disintegration Energy"@en ;
skos:broader quantitykind:Energy ;
.
quantitykind:Altitude
a qudt:QuantityKind ;
dcterms:description "Altitude or height is defined based on the context in which it is used (aviation, geometry, geographical survey, sport, and more). As a general definition, altitude is a distance measurement, usually in the vertical or \"up\" direction, between a reference datum and a point or object. The reference datum also often varies according to the context. [Wikipedia]"^^rdf:HTML ;
qudt:applicableUnit unit:ANGSTROM ;
qudt:applicableUnit unit:AU ;
qudt:applicableUnit unit:BTU_IT-PER-LB_F ;
qudt:applicableUnit unit:CH ;
qudt:applicableUnit unit:CentiM ;
qudt:applicableUnit unit:DecaM ;
qudt:applicableUnit unit:DeciM ;
qudt:applicableUnit unit:FATH ;
qudt:applicableUnit unit:FM ;
qudt:applicableUnit unit:FT ;
qudt:applicableUnit unit:FT_US ;
qudt:applicableUnit unit:FUR ;
qudt:applicableUnit unit:FUR_Long ;
qudt:applicableUnit unit:FemtoM ;
qudt:applicableUnit unit:GAUGE_FR ;
qudt:applicableUnit unit:HectoM ;
qudt:applicableUnit unit:IN ;
qudt:applicableUnit unit:KiloM ;
qudt:applicableUnit unit:LY ;
qudt:applicableUnit unit:M ;
qudt:applicableUnit unit:MI ;
qudt:applicableUnit unit:MI_N ;
qudt:applicableUnit unit:MI_US ;
qudt:applicableUnit unit:MicroIN ;
qudt:applicableUnit unit:MicroM ;
qudt:applicableUnit unit:MilLength ;
qudt:applicableUnit unit:MilliIN ;
qudt:applicableUnit unit:MilliM ;
qudt:applicableUnit unit:NanoM ;
qudt:applicableUnit unit:PARSEC ;
qudt:applicableUnit unit:PCA ;
qudt:applicableUnit unit:PT ;
qudt:applicableUnit unit:PicoM ;
qudt:applicableUnit unit:PlanckLength ;
qudt:applicableUnit unit:ROD ;
qudt:applicableUnit unit:YD ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Altitude"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T0D0 ;
qudt:plainTextDescription "Altitude or height is defined based on the context in which it is used (aviation, geometry, geographical survey, sport, and more). As a general definition, altitude is a distance measurement, usually in the vertical or \"up\" direction, between a reference datum and a point or object. The reference datum also often varies according to the context. [Wikipedia]" ;
rdfs:isDefinedBy ;
rdfs:label "Altitude"@en ;
skos:broader quantitykind:Length ;
.
quantitykind:AmbientPressure
a qudt:QuantityKind ;
dcterms:description """The ambient pressure on an object is the pressure of the surrounding medium, such as a gas or liquid, which comes into contact with the object.
The SI unit of pressure is the pascal (Pa), which is a very small unit relative to atmospheric pressure on Earth, so kilopascals (\\(kPa\\)) are more commonly used in this context. """^^qudt:LatexString ;
qudt:applicableUnit unit:KiloN-PER-M2 ;
qudt:hasDimensionVector qkdv:A0E0L-1I0M1H0T-2D0 ;
qudt:symbol "p_a" ;
rdfs:isDefinedBy ;
rdfs:label "Ambient Pressure"@en ;
skos:broader quantitykind:Pressure ;
.
quantitykind:AmountOfBiologicallyActiveSubstance
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:iec61360Code "0112/2///62720#UAD370" ;
rdfs:isDefinedBy ;
rdfs:label "amount of biologically active substance" ;
.
quantitykind:AmountOfSubstance
a qudt:QuantityKind ;
dcterms:description "\"Amount of Substance\" is a standards-defined quantity that measures the size of an ensemble of elementary entities, such as atoms, molecules, electrons, and other particles. It is sometimes referred to as chemical amount. The International System of Units (SI) defines the amount of substance to be proportional to the number of elementary entities present. The SI unit for amount of substance is \\(mole\\). It has the unit symbol \\(mol\\). The mole is defined as the amount of substance that contains an equal number of elementary entities as there are atoms in 0.012kg of the isotope carbon-12. This number is called Avogadro's number and has the value \\(6.02214179(30) \\times 10^{23}\\). The only other unit of amount of substance in current use is the \\(pound-mole\\) with the symbol \\(lb-mol\\), which is sometimes used in chemical engineering in the United States. One \\(pound-mole\\) is exactly \\(453.59237 mol\\)."^^qudt:LatexString ;
qudt:applicableUnit unit:CentiMOL ;
qudt:applicableUnit unit:FemtoMOL ;
qudt:applicableUnit unit:IU ;
qudt:applicableUnit unit:KiloMOL ;
qudt:applicableUnit unit:MOL ;
qudt:applicableUnit unit:MOL_LB ;
qudt:applicableUnit unit:MicroMOL ;
qudt:applicableUnit unit:MilliMOL ;
qudt:applicableUnit unit:NanoMOL ;
qudt:applicableUnit unit:PicoMOL ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Amount_of_substance"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A1E0L0I0M0H0T0D0 ;
qudt:iec61360Code "0112/2///62720#UAD004" ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Amount_of_substance"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ;
qudt:symbol "n" ;
rdfs:isDefinedBy ;
rdfs:label "Jumlah bahan"@ms ;
rdfs:label "Látkové množství"@cs ;
rdfs:label "Stoffmenge"@de ;
rdfs:label "amount of substance"@en ;
rdfs:label "anyagmennyiség"@hu ;
rdfs:label "cantidad de sustancia"@es ;
rdfs:label "cantitate de substanță"@ro ;
rdfs:label "liczność materii"@pl ;
rdfs:label "madde miktarı"@tr ;
rdfs:label "množina snovi"@sl ;
rdfs:label "quantidade de substância"@pt ;
rdfs:label "quantitas substantiae"@la ;
rdfs:label "quantità di sostanza"@it ;
rdfs:label "quantité de matière"@fr ;
rdfs:label "Ποσότητα Ουσίας"@el ;
rdfs:label "Количество вещества"@ru ;
rdfs:label "Количество вещество"@bg ;
rdfs:label "כמות חומר"@he ;
rdfs:label "كمية المادة"@ar ;
rdfs:label "مقدار ماده"@fa ;
rdfs:label "पदार्थ की मात्रा"@hi ;
rdfs:label "物質量"@ja ;
rdfs:label "物质的量"@zh ;
skos:altLabel "chemical amount"@en ;
skos:altLabel "jumlah kimia"@ms ;
skos:altLabel "quantità chimica"@it ;
skos:altLabel "quantità di materia"@it ;
.
quantitykind:AmountOfSubstanceConcentration
a qudt:QuantityKind ;
dcterms:description "\"Amount of Substance of Concentration\" is defined as the amount of a constituent divided by the volume of the mixture."^^rdf:HTML ;
qudt:applicableUnit unit:CentiMOL-PER-L ;
qudt:applicableUnit unit:FemtoMOL-PER-L ;
qudt:applicableUnit unit:KiloMOL-PER-M3 ;
qudt:applicableUnit unit:MOL-PER-DeciM3 ;
qudt:applicableUnit unit:MOL-PER-L ;
qudt:applicableUnit unit:MOL-PER-M3 ;
qudt:applicableUnit unit:MicroMOL-PER-L ;
qudt:applicableUnit unit:MilliMOL-PER-L ;
qudt:applicableUnit unit:MilliMOL-PER-M3 ;
qudt:applicableUnit unit:NanoMOL-PER-L ;
qudt:applicableUnit unit:PicoMOL-PER-L ;
qudt:applicableUnit unit:PicoMOL-PER-M3 ;
qudt:exactMatch quantitykind:AmountOfSubstancePerUnitVolume ;
qudt:hasDimensionVector qkdv:A1E0L-3I0M0H0T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Amount_of_substance_concentration"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ;
qudt:latexDefinition "\\(C_B = \\frac{n_B}{V}\\), where \\(n_B\\) is the amount of substance \\(B\\) and \\(V\\) is the volume."^^qudt:LatexString ;
qudt:plainTextDescription "\"Amount of Substance of Concentration of B\" is defined as the amount of a constituent divided by the volume of the mixture." ;
qudt:symbol "C_B" ;
rdfs:isDefinedBy ;
rdfs:label "Amount of Substance of Concentration"@en ;
.
quantitykind:AmountOfSubstanceConcentrationOfB
a qudt:QuantityKind ;
dcterms:description "\"Amount of Substance of Concentration of B\" is defined as the amount of a constituent divided by the volume of the mixture."^^rdf:HTML ;
dcterms:isReplacedBy quantitykind:AmountOfSubstanceConcentration ;
qudt:deprecated true ;
qudt:hasDimensionVector qkdv:A1E0L-3I0M0H0T0D0 ;
qudt:iec61360Code "0112/2///62720#UAD005" ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Amount_of_substance_concentration"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ;
qudt:latexDefinition "\\(C_B = \\frac{n_B}{V}\\), where \\(n_B\\) is the amount of substance \\(B\\) and \\(V\\) is the volume."^^qudt:LatexString ;
qudt:plainTextDescription "\"Amount of Substance of Concentration of B\" is defined as the amount of a constituent divided by the volume of the mixture." ;
qudt:symbol "C_B" ;
rdfs:isDefinedBy ;
rdfs:label "Amount of Substance of Concentration of B"@en ;
.
quantitykind:AmountOfSubstanceFraction
a qudt:QuantityKind ;
dcterms:description "\"Fractional Amount of Substance\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Amount_fraction"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ;
qudt:latexDefinition "\\(x_B = \\frac{n_B}{n}\\), where \\(n_B\\) is the amount of substance \\(B\\) and \\(n\\) is the total amount of substance."^^qudt:LatexString ;
qudt:plainTextDescription "\"Fractional Amount of Substance\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture." ;
qudt:symbol "X_B" ;
rdfs:isDefinedBy ;
rdfs:label "Fractional Amount of Substance"@en ;
.
quantitykind:AmountOfSubstanceFractionOfB
a qudt:QuantityKind ;
dcterms:description "\"Amount of Substance of Fraction of B\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture."^^rdf:HTML ;
dcterms:isReplacedBy quantitykind:AmountOfSubstanceFraction ;
qudt:deprecated true ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Amount_fraction"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ;
qudt:latexDefinition "\\(x_B = \\frac{n_B}{n}\\), where \\(n_B\\) is the amount of substance \\(B\\) and \\(n\\) is the total amount of substance."^^qudt:LatexString ;
qudt:plainTextDescription "\"Amount of Substance of Fraction of B\" is defined as tthe amount of a constituent divided by the total amount of all constituents in a mixture." ;
qudt:symbol "X_B" ;
rdfs:isDefinedBy ;
rdfs:label "Amount of Substance of Fraction of B"@en ;
.
quantitykind:AmountOfSubstancePerUnitMass
a qudt:QuantityKind ;
qudt:applicableUnit unit:CentiMOL-PER-KiloGM ;
qudt:applicableUnit unit:FemtoMOL-PER-KiloGM ;
qudt:applicableUnit unit:IU-PER-MilliGM ;
qudt:applicableUnit unit:KiloMOL-PER-KiloGM ;
qudt:applicableUnit unit:MOL-PER-KiloGM ;
qudt:applicableUnit unit:MOL-PER-TONNE ;
qudt:applicableUnit unit:MicroMOL-PER-GM ;
qudt:applicableUnit unit:MicroMOL-PER-KiloGM ;
qudt:applicableUnit unit:MilliMOL-PER-GM ;
qudt:applicableUnit unit:MilliMOL-PER-KiloGM ;
qudt:applicableUnit unit:NanoMOL-PER-KiloGM ;
qudt:applicableUnit unit:PicoMOL-PER-KiloGM ;
qudt:hasDimensionVector qkdv:A1E0L0I0M-1H0T0D0 ;
vaem:todo "fix the numerator and denominator dimensions" ;
rdfs:isDefinedBy ;
rdfs:label "Amount of Substance per Unit Mass"@en ;
.
quantitykind:AmountOfSubstancePerUnitMassPressure
a qudt:QuantityKind ;
dcterms:description "The \"Variation of Molar Mass\" of a gas as a function of pressure."^^rdf:HTML ;
qudt:applicableUnit unit:MOL-PER-KiloGM-PA ;
qudt:hasDimensionVector qkdv:A1E0L1I0M-2H0T2D0 ;
qudt:plainTextDescription "The \"Variation of Molar Mass\" of a gas as a function of pressure." ;
rdfs:isDefinedBy ;
rdfs:label "Molar Mass variation due to Pressure"@en ;
.
quantitykind:AmountOfSubstancePerUnitVolume
a qudt:QuantityKind ;
dcterms:description "The amount of substance per unit volume is called the molar density. Molar density is an intensive property of a substance and depends on the temperature and pressure."^^rdf:HTML ;
qudt:applicableUnit unit:CentiMOL-PER-L ;
qudt:applicableUnit unit:FemtoMOL-PER-L ;
qudt:applicableUnit unit:KiloMOL-PER-M3 ;
qudt:applicableUnit unit:MOL-PER-DeciM3 ;
qudt:applicableUnit unit:MOL-PER-L ;
qudt:applicableUnit unit:MOL-PER-M3 ;
qudt:applicableUnit unit:MicroMOL-PER-L ;
qudt:applicableUnit unit:MilliMOL-PER-L ;
qudt:applicableUnit unit:MilliMOL-PER-M3 ;
qudt:applicableUnit unit:NanoMOL-PER-L ;
qudt:applicableUnit unit:PicoMOL-PER-L ;
qudt:applicableUnit unit:PicoMOL-PER-M3 ;
qudt:exactMatch quantitykind:AmountOfSubstanceConcentration ;
qudt:hasDimensionVector qkdv:A1E0L-3I0M0H0T0D0 ;
qudt:informativeReference "http://www.ask.com/answers/72367781/what-is-defined-as-the-amount-of-substance-per-unit-of-volume"^^xsd:anyURI ;
qudt:informativeReference "https://en.wikipedia.org/wiki/Molar_concentration"^^xsd:anyURI ;
qudt:plainTextDescription "The amount of substance per unit volume is called the molar density. Molar density is an intensive property of a substance and depends on the temperature and pressure." ;
rdfs:isDefinedBy ;
rdfs:label "Amount of Substance per Unit Volume"@en ;
skos:broader quantitykind:Concentration ;
.
quantitykind:Angle
a qudt:QuantityKind ;
dcterms:description "The abstract notion of angle. Narrow concepts include plane angle and solid angle. While both plane angle and solid angle are dimensionless, they are actually length/length and area/area respectively."^^qudt:LatexString ;
qudt:applicableUnit unit:ARCMIN ;
qudt:applicableUnit unit:ARCSEC ;
qudt:applicableUnit unit:DEG ;
qudt:applicableUnit unit:GON ;
qudt:applicableUnit unit:GRAD ;
qudt:applicableUnit unit:MIL ;
qudt:applicableUnit unit:MIN_Angle ;
qudt:applicableUnit unit:MicroRAD ;
qudt:applicableUnit unit:MilliARCSEC ;
qudt:applicableUnit unit:MilliRAD ;
qudt:applicableUnit unit:RAD ;
qudt:applicableUnit unit:REV ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Angle"^^xsd:anyURI ;
qudt:exactMatch quantitykind:PlaneAngle ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
rdfs:isDefinedBy ;
rdfs:label "Angle"@en ;
skos:broader quantitykind:DimensionlessRatio ;
.
quantitykind:AngleOfAttack
a qudt:QuantityKind ;
dcterms:description "Angle of attack is the angle between the oncoming air or relative wind and a reference line on the airplane or wing."^^rdf:HTML ;
qudt:applicableUnit unit:ARCMIN ;
qudt:applicableUnit unit:ARCSEC ;
qudt:applicableUnit unit:DEG ;
qudt:applicableUnit unit:GON ;
qudt:applicableUnit unit:GRAD ;
qudt:applicableUnit unit:MIL ;
qudt:applicableUnit unit:MIN_Angle ;
qudt:applicableUnit unit:MicroRAD ;
qudt:applicableUnit unit:MilliARCSEC ;
qudt:applicableUnit unit:MilliRAD ;
qudt:applicableUnit unit:RAD ;
qudt:applicableUnit unit:REV ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:latexSymbol "\\(\\alpha\\)"^^qudt:LatexString ;
qudt:plainTextDescription "Angle of attack is the angle between the oncoming air or relative wind and a reference line on the airplane or wing." ;
rdfs:isDefinedBy ;
rdfs:label "Angle Of Attack"@en ;
skos:broader quantitykind:Angle ;
.
quantitykind:AngleOfOpticalRotation
a qudt:QuantityKind ;
dcterms:description "The \"Angle of Optical Rotation\" is the angle through which plane-polarized light is rotated clockwise, as seen when facing the light source, in passing through an optically active medium."^^rdf:HTML ;
qudt:applicableUnit unit:ARCMIN ;
qudt:applicableUnit unit:ARCSEC ;
qudt:applicableUnit unit:DEG ;
qudt:applicableUnit unit:GON ;
qudt:applicableUnit unit:GRAD ;
qudt:applicableUnit unit:MIL ;
qudt:applicableUnit unit:MIN_Angle ;
qudt:applicableUnit unit:MicroRAD ;
qudt:applicableUnit unit:MilliARCSEC ;
qudt:applicableUnit unit:MilliRAD ;
qudt:applicableUnit unit:RAD ;
qudt:applicableUnit unit:REV ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Optical_rotation"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ;
qudt:latexSymbol "\\(\\alpha\\)"^^qudt:LatexString ;
qudt:plainTextDescription "The \"Angle of Optical Rotation\" is the angle through which plane-polarized light is rotated clockwise, as seen when facing the light source, in passing through an optically active medium." ;
rdfs:isDefinedBy ;
rdfs:label "Angle of Optical Rotation"@en ;
skos:broader quantitykind:Angle ;
.
quantitykind:AngularAcceleration
a qudt:QuantityKind ;
dcterms:description "Angular acceleration is the rate of change of angular velocity over time. Measurement of the change made in the rate of change of an angle that a spinning object undergoes per unit time. It is a vector quantity. Also called Rotational acceleration. In SI units, it is measured in radians per second squared (\\(rad/s^2\\)), and is usually denoted by the Greek letter alpha."^^qudt:LatexString ;
qudt:applicableUnit unit:DEG-PER-SEC2 ;
qudt:applicableUnit unit:RAD-PER-SEC2 ;
qudt:applicableUnit unit:REV-PER-SEC2 ;
qudt:baseCGSUnitDimensions "U/T^2" ;
qudt:baseSIUnitDimensions "\\(/s^2\\)"^^qudt:LatexString ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Angular_acceleration"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T-2D0 ;
qudt:iec61360Code "0112/2///62720#UAD006" ;
qudt:qkdvDenominator qkdv:A0E0L1I0M0H0T2D0 ;
qudt:qkdvNumerator qkdv:A0E0L1I0M0H0T0D0 ;
rdfs:isDefinedBy ;
rdfs:label "Accelerație unghiulară"@ro ;
rdfs:label "Açısal ivme"@tr ;
rdfs:label "Pecutan bersudut"@ms ;
rdfs:label "Przyspieszenie kątowe"@pl ;
rdfs:label "Winkelbeschleunigung"@de ;
rdfs:label "accelerazione angolare"@it ;
rdfs:label "accélération angulaire"@fr ;
rdfs:label "aceleración angular"@es ;
rdfs:label "aceleração angular"@pt ;
rdfs:label "angular acceleration"@en ;
rdfs:label "Úhlové zrychlení"@cs ;
rdfs:label "Угловое ускорение"@ru ;
rdfs:label "تسارع زاوي"@ar ;
rdfs:label "شتاب زاویهای"@fa ;
rdfs:label "कोणीय त्वरण"@hi ;
rdfs:label "角加速度"@ja ;
rdfs:label "角加速度"@zh ;
skos:broader quantitykind:InverseSquareTime ;
.
quantitykind:AngularCrossSection
a qudt:QuantityKind ;
dcterms:description "\"Angular Cross-section\" is the cross-section for ejecting or scattering a particle into an elementary cone, divided by the solid angle \\(d\\Omega\\) of that cone."^^qudt:LatexString ;
qudt:applicableUnit unit:M2-PER-SR ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T0D0 ;
qudt:iec61360Code "0112/2///62720#UAD007" ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Cross_section_(physics)"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\sigma = \\int \\sigma_\\Omega d\\Omega\\)"^^qudt:LatexString ;
qudt:latexSymbol "\\(\\sigma_\\Omega\\)"^^qudt:LatexString ;
rdfs:isDefinedBy ;
rdfs:label "Angular Cross-section"@en ;
skos:closeMatch quantitykind:SpectralCrossSection ;
.
quantitykind:AngularDistance
a qudt:QuantityKind ;
dcterms:description "Angular distance travelled by orbiting vehicle measured from the azimuth of closest approach."^^rdf:HTML ;
qudt:applicableUnit unit:ARCMIN ;
qudt:applicableUnit unit:ARCSEC ;
qudt:applicableUnit unit:DEG ;
qudt:applicableUnit unit:GON ;
qudt:applicableUnit unit:GRAD ;
qudt:applicableUnit unit:MIL ;
qudt:applicableUnit unit:MIN_Angle ;
qudt:applicableUnit unit:MicroRAD ;
qudt:applicableUnit unit:MilliARCSEC ;
qudt:applicableUnit unit:MilliRAD ;
qudt:applicableUnit unit:RAD ;
qudt:applicableUnit unit:REV ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:latexSymbol "\\(\\theta\\)"^^qudt:LatexString ;
qudt:plainTextDescription "Angular distance travelled by orbiting vehicle measured from the azimuth of closest approach." ;
rdfs:isDefinedBy ;
rdfs:label "Angular Distance"@en ;
skos:broader quantitykind:Angle ;
.
quantitykind:AngularFrequency
a qudt:QuantityKind ;
dcterms:description "\"Angular frequency\", symbol \\(\\omega\\) (also referred to by the terms angular speed, radial frequency, circular frequency, orbital frequency, radian frequency, and pulsatance) is a scalar measure of rotation rate. Angular frequency (or angular speed) is the magnitude of the vector quantity angular velocity."^^qudt:LatexString ;
qudt:applicableUnit unit:DEG-PER-HR ;
qudt:applicableUnit unit:DEG-PER-MIN ;
qudt:applicableUnit unit:DEG-PER-SEC ;
qudt:applicableUnit unit:PlanckFrequency_Ang ;
qudt:applicableUnit unit:RAD-PER-HR ;
qudt:applicableUnit unit:RAD-PER-MIN ;
qudt:applicableUnit unit:RAD-PER-SEC ;
qudt:applicableUnit unit:REV-PER-HR ;
qudt:applicableUnit unit:REV-PER-MIN ;
qudt:applicableUnit unit:REV-PER-SEC ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Angular_frequency"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T-1D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Angular_frequency"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\omega = 2\\pi f\\), where \\(f\\) is frequency."^^qudt:LatexString ;
qudt:latexSymbol "\\(\\omega\\)"^^qudt:LatexString ;
vaem:todo "belongs to SOQ-ISO" ;
rdfs:isDefinedBy ;
rdfs:label "Kreisfrequenz"@de ;
rdfs:label "Pulsación"@fr ;
rdfs:label "angular frequency"@en ;
rdfs:label "frequenza angolare"@it ;
rdfs:label "frequência angular"@pt ;
rdfs:label "pulsación"@es ;
rdfs:label "pulsacja"@pl ;
rdfs:label "تردد زاوى"@ar ;
rdfs:label "角振動数"@ja ;
rdfs:label "角频率"@zh ;
skos:altLabel "Pulsatanzpulsation"@de ;
skos:altLabel "pulsatance"@en ;
skos:altLabel "pulsazione"@it ;
skos:altLabel "pulsação"@pt ;
skos:altLabel "نابض"@ar ;
skos:altLabel "角周波数"@ja ;
skos:altLabel "角速度"@zh ;
skos:broader quantitykind:AngularVelocity ;
.
quantitykind:AngularImpulse
a qudt:QuantityKind ;
dcterms:description "The Angular Impulse, also known as angular momentum, is the moment of linear momentum around a point. It is defined as\\(H = \\int Mdt\\), where \\(M\\) is the moment of force and \\(t\\) is time."^^qudt:LatexString ;
qudt:applicableUnit unit:ERG-SEC ;
qudt:applicableUnit unit:EV-SEC ;
qudt:applicableUnit unit:FT-LB_F-SEC ;
qudt:applicableUnit unit:J-SEC ;
qudt:applicableUnit unit:KiloGM-M2-PER-SEC ;
qudt:applicableUnit unit:N-M-SEC ;
qudt:dbpediaMatch "http://dbpedia.org/resource/AngularMomentum"^^xsd:anyURI ;
qudt:exactMatch quantitykind:AngularMomentum ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-1D0 ;
qudt:informativeReference "http://emweb.unl.edu/NEGAHBAN/EM373/note13/note.htm"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ;
qudt:symbol "H" ;
rdfs:isDefinedBy ;
rdfs:label "Drehstoß"@de ;
rdfs:label "angular impulse"@en ;
rdfs:label "impulsion angulaire"@fr ;
rdfs:label "impulso angolare"@it ;
rdfs:label "impulso angular"@es ;
rdfs:label "impulsão angular"@pt ;
rdfs:label "popęd kątowy"@pl ;
rdfs:label "نبضة دفعية زاوية"@ar ;
rdfs:label "角冲量;冲量矩"@zh ;
rdfs:label "角力積"@ja ;
skos:altLabel "Drehmomentstoß"@de ;
.
quantitykind:AngularMomentum
a qudt:QuantityKind ;
dcterms:description "Angular Momentum of an object rotating about some reference point is the measure of the extent to which the object will continue to rotate about that point unless acted upon by an external torque. In particular, if a point mass rotates about an axis, then the angular momentum with respect to a point on the axis is related to the mass of the object, the velocity and the distance of the mass to the axis. While the motion associated with linear momentum has no absolute frame of reference, the rotation associated with angular momentum is sometimes spoken of as being measured relative to the fixed stars. \\textit{Angular Momentum}, \\textit{Moment of Momentum}, or \\textit{Rotational Momentum\", is a vector quantity that represents the product of a body's rotational inertia and rotational velocity about a particular axis."^^rdf:HTML ;
qudt:applicableUnit unit:ERG-SEC ;
qudt:applicableUnit unit:EV-SEC ;
qudt:applicableUnit unit:FT-LB_F-SEC ;
qudt:applicableUnit unit:J-SEC ;
qudt:applicableUnit unit:KiloGM-M2-PER-SEC ;
qudt:applicableUnit unit:N-M-SEC ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Angular_momentum"^^xsd:anyURI ;
qudt:exactMatch quantitykind:AngularImpulse ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-1D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Angular_momentum"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ;
qudt:latexDefinition "\\(L = I\\omega\\), where \\(I\\) is the moment of inertia, and \\(\\omega\\) is the angular velocity."^^qudt:LatexString ;
qudt:plainTextDescription "Angular Momentum of an object rotating about some reference point is the measure of the extent to which the object will continue to rotate about that point unless acted upon by an external torque. In particular, if a point mass rotates about an axis, then the angular momentum with respect to a point on the axis is related to the mass of the object, the velocity and the distance of the mass to the axis. While the motion associated with linear momentum has no absolute frame of reference, the rotation associated with angular momentum is sometimes spoken of as being measured relative to the fixed stars. \\textit{Angular Momentum}, \\textit{Moment of Momentum}, or \\textit{Rotational Momentum\", is a vector quantity that represents the product of a body's rotational inertia and rotational velocity about a particular axis." ;
qudt:symbol "L" ;
rdfs:isDefinedBy ;
rdfs:label "Angular Momentum"@en ;
.
quantitykind:AngularMomentumPerAngle
a qudt:QuantityKind ;
qudt:applicableUnit unit:N-M-SEC-PER-RAD ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-1D0 ;
rdfs:isDefinedBy ;
rdfs:label "Angular Momentum per Angle"@en ;
.
quantitykind:AngularReciprocalLatticeVector
a qudt:QuantityKind ;
dcterms:description "\"Angular Reciprocal Lattice Vector\" is a vector whose scalar products with all fundamental lattice vectors are integral multiples of \\(2\\pi\\)."^^qudt:LatexString ;
qudt:applicableUnit unit:PER-KiloM ;
qudt:applicableUnit unit:PER-M ;
qudt:applicableUnit unit:PER-MicroM ;
qudt:applicableUnit unit:PER-MilliM ;
qudt:applicableUnit unit:PER-NanoM ;
qudt:applicableUnit unit:PER-PicoM ;
qudt:hasDimensionVector qkdv:A0E0L-1I0M0H0T0D0 ;
qudt:informativeReference "http://www.matter.org.uk/diffraction/geometry/lattice_vectors.htm"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ;
qudt:symbol "G" ;
rdfs:isDefinedBy ;
rdfs:label "Angular Reciprocal Lattice Vector"@en ;
.
quantitykind:AngularVelocity
a qudt:QuantityKind ;
dcterms:description "Angular Velocity refers to how fast an object rotates or revolves relative to another point."^^qudt:LatexString ;
qudt:applicableUnit unit:DEG-PER-HR ;
qudt:applicableUnit unit:DEG-PER-MIN ;
qudt:applicableUnit unit:DEG-PER-SEC ;
qudt:applicableUnit unit:PlanckFrequency_Ang ;
qudt:applicableUnit unit:RAD-PER-HR ;
qudt:applicableUnit unit:RAD-PER-MIN ;
qudt:applicableUnit unit:RAD-PER-SEC ;
qudt:applicableUnit unit:REV-PER-HR ;
qudt:applicableUnit unit:REV-PER-MIN ;
qudt:applicableUnit unit:REV-PER-SEC ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Angular_velocity"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T-1D0 ;
qudt:iec61360Code "0112/2///62720#UAD009" ;
qudt:informativeReference "https://en.wikipedia.org/wiki/Angular_velocity"^^xsd:anyURI ;
qudt:plainTextDescription "The change of angle per unit time; specifically, in celestial mechanics, the change in angle of the radius vector per unit time." ;
qudt:qkdvDenominator qkdv:A0E0L1I0M0H0T1D0 ;
qudt:qkdvNumerator qkdv:A0E0L1I0M0H0T0D0 ;
rdfs:isDefinedBy ;
rdfs:label "Açısal hız"@tr ;
rdfs:label "Halaju bersudut"@ms ;
rdfs:label "Prędkość kątowa"@pl ;
rdfs:label "Viteză unghiulară"@ro ;
rdfs:label "Winkelgeschwindigkeit"@de ;
rdfs:label "angular velocity"@en ;
rdfs:label "kotna hitrost"@sl ;
rdfs:label "velocidad angular"@es ;
rdfs:label "velocidade angular"@pt ;
rdfs:label "velocità angolare"@it ;
rdfs:label "vitesse angulaire"@fr ;
rdfs:label "Úhlová rychlost"@cs ;
rdfs:label "Угловая скорость"@ru ;
rdfs:label "سرعة زاوية"@ar ;
rdfs:label "سرعت زاویهای"@fa ;
rdfs:label "कोणीय वेग"@hi ;
rdfs:label "角速度"@ja ;
rdfs:label "角速度"@zh ;
skos:altLabel "angular speed"@en ;
skos:altLabel "kelajuan bersudut"@ms ;
.
quantitykind:AngularWavenumber
a qudt:QuantityKind ;
dcterms:description "\"wavenumber\" is the spatial frequency of a wave - the number of waves that exist over a specified distance. More formally, it is the reciprocal of the wavelength. It is also the magnitude of the wave vector."^^rdf:HTML ;
qudt:applicableUnit unit:RAD-PER-M ;
qudt:hasDimensionVector qkdv:A0E0L-1I0M0H0T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Wavenumber"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ;
qudt:latexDefinition """\\(k = \\frac{2\\pi}{\\lambda}= \\frac{2\\pi\\upsilon}{\\upsilon_p}=\\frac{\\omega}{\\upsilon_p}\\), where \\(\\upsilon\\) is the frequency of the wave, \\(\\lambda\\) is the wavelength, \\(\\omega = 2\\pi \\upsilon\\) is the angular frequency of the wave, and \\(\\upsilon_p\\) is the phase velocity of the wave.
Alternatively:
\\(k = \\frac{p}{\\hbar}\\), where \\(p\\) is the linear momentum of quasi free electrons in an electron gas and \\(\\hbar\\) is the reduced Planck constant (\\(h\\) divided by \\(2\\pi\\)); for phonons, its magnitude is \\(k = \\frac{2\\pi}{\\lambda}\\), where \\(\\lambda\\) is the wavelength of the lattice vibrations."""^^qudt:LatexString ;
qudt:plainTextDescription "\"wavenumber\" is the spatial frequency of a wave - the number of waves that exist over a specified distance. More formally, it is the reciprocal of the wavelength. It is also the magnitude of the wave vector." ;
qudt:symbol "k" ;
vaem:todo "belongs to SOQ-ISO" ;
rdfs:isDefinedBy ;
rdfs:label "Kreisrepetenz"@de ;
rdfs:label "angular wavenumber"@en ;
rdfs:label "liczba falowa kątowa"@pl ;
rdfs:label "nombre d'onde angulaire"@fr ;
rdfs:label "numero d'onda angolare"@it ;
rdfs:label "número de onda angular"@es ;
rdfs:label "número de onda angular"@pt ;
rdfs:label "عدد موجى زاوى"@ar ;
rdfs:label "角波数"@ja ;
rdfs:label "角波数"@zh ;
skos:altLabel "Kreiswellenzahl"@de ;
skos:altLabel "angular repetency"@en ;
skos:altLabel "repetencja kątowa"@pl ;
skos:altLabel "repetência angular"@pt ;
skos:altLabel "répétence angulaire"@fr ;
skos:altLabel "تكرار زاوى"@ar ;
skos:broader quantitykind:InverseLength ;
.
quantitykind:ApogeeRadius
a qudt:QuantityKind ;
dcterms:description "Apogee radius of an elliptical orbit"^^rdf:HTML ;
qudt:applicableUnit unit:ANGSTROM ;
qudt:applicableUnit unit:AU ;
qudt:applicableUnit unit:BTU_IT-PER-LB_F ;
qudt:applicableUnit unit:CH ;
qudt:applicableUnit unit:CentiM ;
qudt:applicableUnit unit:DecaM ;
qudt:applicableUnit unit:DeciM ;
qudt:applicableUnit unit:FATH ;
qudt:applicableUnit unit:FM ;
qudt:applicableUnit unit:FT ;
qudt:applicableUnit unit:FT_US ;
qudt:applicableUnit unit:FUR ;
qudt:applicableUnit unit:FUR_Long ;
qudt:applicableUnit unit:FemtoM ;
qudt:applicableUnit unit:GAUGE_FR ;
qudt:applicableUnit unit:HectoM ;
qudt:applicableUnit unit:IN ;
qudt:applicableUnit unit:KiloM ;
qudt:applicableUnit unit:LY ;
qudt:applicableUnit unit:M ;
qudt:applicableUnit unit:MI ;
qudt:applicableUnit unit:MI_N ;
qudt:applicableUnit unit:MI_US ;
qudt:applicableUnit unit:MicroIN ;
qudt:applicableUnit unit:MicroM ;
qudt:applicableUnit unit:MilLength ;
qudt:applicableUnit unit:MilliIN ;
qudt:applicableUnit unit:MilliM ;
qudt:applicableUnit unit:NanoM ;
qudt:applicableUnit unit:PARSEC ;
qudt:applicableUnit unit:PCA ;
qudt:applicableUnit unit:PT ;
qudt:applicableUnit unit:PicoM ;
qudt:applicableUnit unit:PlanckLength ;
qudt:applicableUnit unit:ROD ;
qudt:applicableUnit unit:YD ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T0D0 ;
qudt:plainTextDescription "Apogee radius of an elliptical orbit" ;
qudt:symbol "r_2" ;
rdfs:isDefinedBy ;
rdfs:label "Apogee Radius"@en ;
skos:broader quantitykind:Radius ;
.
quantitykind:ApparentPower
a qudt:QuantityKind ;
dcterms:description "\"Apparent Power\" is the product of the rms voltage \\(U\\) between the terminals of a two-terminal element or two-terminal circuit and the rms electric current I in the element or circuit. Under sinusoidal conditions, the apparent power is the modulus of the complex power."^^qudt:LatexString ;
qudt:applicableUnit unit:KiloV-A ;
qudt:applicableUnit unit:MegaV-A ;
qudt:applicableUnit unit:V-A ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-3D0 ;
qudt:iec61360Code "0112/2///62720#UAD011" ;
qudt:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=131-11-41"^^xsd:anyURI ;
qudt:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\left | \\underline{S} \\right | = UI\\), where \\(U\\) is rms value of voltage and \\(I\\) is rms value of electric current."^^qudt:LatexString ;
qudt:latexSymbol "\\(\\left | \\underline{S} \\right |\\)"^^qudt:LatexString ;
rdfs:isDefinedBy ;
rdfs:label "Scheinleistung"@de ;
rdfs:label "apparent power"@en ;
rdfs:label "moc pozorna"@pl ;
rdfs:label "potencia aparente"@es ;
rdfs:label "potenza apparente"@it ;
rdfs:label "potência aparente"@pt ;
rdfs:label "puissance apparente"@fr ;
rdfs:label "القدرة الظاهرية"@ar ;
rdfs:label "皮相電力"@ja ;
rdfs:label "视在功率"@zh ;
rdfs:seeAlso quantitykind:ElectricCurrent ;
rdfs:seeAlso quantitykind:Voltage ;
skos:altLabel "表观功率"@zh ;
skos:broader quantitykind:ComplexPower ;
.
quantitykind:Area
a qudt:QuantityKind ;
dcterms:description "Area is a quantity expressing the two-dimensional size of a defined part of a surface, typically a region bounded by a closed curve."^^rdf:HTML ;
qudt:applicableUnit unit:AC ;
qudt:applicableUnit unit:ARE ;
qudt:applicableUnit unit:BARN ;
qudt:applicableUnit unit:CentiM2 ;
qudt:applicableUnit unit:DecaARE ;
qudt:applicableUnit unit:DeciM2 ;
qudt:applicableUnit unit:FT2 ;
qudt:applicableUnit unit:HA ;
qudt:applicableUnit unit:IN2 ;
qudt:applicableUnit unit:KiloMIL_Circ ;
qudt:applicableUnit unit:M2 ;
qudt:applicableUnit unit:MI2 ;
qudt:applicableUnit unit:MIL_Circ ;
qudt:applicableUnit unit:MI_US2 ;
qudt:applicableUnit unit:MicroM2 ;
qudt:applicableUnit unit:MilliM2 ;
qudt:applicableUnit unit:NanoM2 ;
qudt:applicableUnit unit:PlanckArea ;
qudt:applicableUnit unit:YD2 ;
qudt:baseCGSUnitDimensions "cm^2" ;
qudt:baseSIUnitDimensions "\\(m^2\\)"^^qudt:LatexString ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Area"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T0D0 ;
qudt:iec61360Code "0112/2///62720#UAD182" ;
qudt:plainTextDescription "Area is a quantity expressing the two-dimensional size of a defined part of a surface, typically a region bounded by a closed curve." ;
rdfs:isDefinedBy ;
rdfs:label "Fläche"@de ;
rdfs:label "Keluasan"@ms ;
rdfs:label "aire"@fr ;
rdfs:label "alan"@tr ;
rdfs:label "area"@en ;
rdfs:label "area"@it ;
rdfs:label "arie"@ro ;
rdfs:label "plocha"@cs ;
rdfs:label "pole powierzchni"@pl ;
rdfs:label "površina"@sl ;
rdfs:label "área"@es ;
rdfs:label "área"@pt ;
rdfs:label "Ταχύτητα"@el ;
rdfs:label "Площ"@bg ;
rdfs:label "Площадь"@ru ;
rdfs:label "שטח"@he ;
rdfs:label "مساحة"@ar ;
rdfs:label "مساحت"@fa ;
rdfs:label "क्षेत्रफल"@hi ;
rdfs:label "面积"@zh ;
rdfs:label "面積"@ja ;
skos:altLabel "superficie"@fr ;
.
quantitykind:AreaAngle
a qudt:QuantityKind ;
qudt:applicableUnit unit:M2-SR ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T0D0 ;
rdfs:isDefinedBy ;
rdfs:label "Area Angle"@en ;
.
quantitykind:AreaBitDensity
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L-2I0M0H0T0D0 ;
qudt:iec61360Code "0112/2///62720#UAD012" ;
rdfs:isDefinedBy ;
rdfs:label "areic bit density" ;
.
quantitykind:AreaChargeDensity
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E1L-2I0M0H0T1D0 ;
qudt:iec61360Code "0112/2///62720#UAD013" ;
rdfs:isDefinedBy ;
rdfs:label "areic charge density" ;
.
quantitykind:AreaMass
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L-2I0M1H0T0D0 ;
qudt:iec61360Code "0112/2///62720#UAD014" ;
rdfs:isDefinedBy ;
rdfs:label "areic mass" ;
.
quantitykind:AreaPerLength
a qudt:QuantityKind ;
qudt:applicableUnit unit:M2-PER-M ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T0D0 ;
qudt:informativeReference "https://www.easysteel.co.nz/web/assets/EasysteelSurfaceAreaofSections-Feb14.pdf"^^xsd:anyURI ;
qudt:plainTextDescription "Measure used to indicate the surface area of structural steel per unit length of the steel part." ;
qudt:qkdvDenominator qkdv:A0E0L1I0M0H0T0D0 ;
qudt:qkdvNumerator qkdv:A0E0L2I0M0H0T0D0 ;
rdfs:isDefinedBy ;
rdfs:label "Fläche pro Längeneinheit"@de ;
rdfs:label "area per length"@en ;
.
quantitykind:AreaPerPower
a qudt:QuantityKind ;
qudt:applicableUnit unit:M2-PER-KiloW ;
qudt:applicableUnit unit:M2-PER-W ;
qudt:hasDimensionVector qkdv:A0E0L0I0M-1H0T3D0 ;
qudt:plainTextDescription "The ratio of an area and the power required for maintaining room temperature at a given level" ;
rdfs:isDefinedBy ;
rdfs:label "Fläche pro Heizlast"@de ;
rdfs:label "area per heating load"@en ;
.
quantitykind:AreaPerTime
a qudt:QuantityKind ;
qudt:applicableUnit unit:CentiM2-PER-SEC ;
qudt:applicableUnit unit:FT2-PER-HR ;
qudt:applicableUnit unit:FT2-PER-SEC ;
qudt:applicableUnit unit:IN2-PER-SEC ;
qudt:applicableUnit unit:M2-HZ ;
qudt:applicableUnit unit:M2-PER-SEC ;
qudt:applicableUnit unit:MilliM2-PER-SEC ;
qudt:baseImperialUnitDimensions "\\(ft^2/s\\)"^^qudt:LatexString ;
qudt:baseSIUnitDimensions "\\(m^2/s\\)"^^qudt:LatexString ;
qudt:baseUSCustomaryUnitDimensions "\\(L^2/T\\)"^^qudt:LatexString ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T-1D0 ;
rdfs:isDefinedBy ;
rdfs:label "Area per Time"@en ;
.
quantitykind:AreaRatio
a qudt:QuantityKind ;
qudt:applicableUnit unit:M2-PER-HA ;
qudt:applicableUnit unit:M2-PER-M2 ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:qkdvDenominator qkdv:A0E0L2I0M0H0T0D0 ;
qudt:qkdvNumerator qkdv:A0E0L2I0M0H0T0D0 ;
rdfs:isDefinedBy ;
rdfs:label "Area Ratio"@en ;
skos:broader quantitykind:DimensionlessRatio ;
.
quantitykind:AreaTemperature
a qudt:QuantityKind ;
qudt:applicableUnit unit:FT2-DEG_F ;
qudt:applicableUnit unit:M2-K ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H1T0D0 ;
rdfs:isDefinedBy ;
rdfs:label "Area Temperature"@en ;
.
quantitykind:AreaThermalExpansion
a qudt:QuantityKind ;
dcterms:description "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion."^^rdf:HTML ;
qudt:applicableUnit unit:M2-PER-K ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H-1T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/area_thermal_expansion"^^xsd:anyURI ;
qudt:plainTextDescription "When the temperature of a substance changes, the energy that is stored in the intermolecular bonds between atoms changes. When the stored energy increases, so does the length of the molecular bonds. As a result, solids typically expand in response to heating and contract on cooling; this dimensional response to temperature change is expressed by its coefficient of thermal expansion." ;
rdfs:isDefinedBy ;
rdfs:label "Area Thermal Expansion"@en ;
.
quantitykind:AreaTime
a qudt:QuantityKind ;
qudt:applicableUnit unit:CentiM2-MIN ;
qudt:applicableUnit unit:CentiM2-SEC ;
qudt:applicableUnit unit:HR-FT2 ;
qudt:applicableUnit unit:SEC-FT2 ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T1D0 ;
rdfs:isDefinedBy ;
rdfs:label "Area Time"@en ;
.
quantitykind:AreaTimeTemperature
a qudt:QuantityKind ;
qudt:applicableUnit unit:FT2-HR-DEG_F ;
qudt:applicableUnit unit:FT2-SEC-DEG_F ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H1T1D0 ;
rdfs:isDefinedBy ;
rdfs:label "Area Time Temperature"@en ;
.
quantitykind:AreicChargeDensityOrElectricFluxDensityOrElectricPolarization
a qudt:QuantityKind ;
dcterms:description "auf einer Fläche mit dem Flächeninhalt A vorhandenen Ladung Q dividiert durch den Flächeninhalt A oder vektorielle Größe, die für einen gegebenen Punkt gleich der Summe der elektrischen Polarisation P und des Produkts aus der elektrischen Feldstärke E und der elektrischen Feldkonstante (Permittivität) ε₀ ist oder räumliche Dichte des elektrischen Moments molekularer Dipole"@de ;
dcterms:description "charge Q presented on an area of size A divided by the area A or vector quantity obtained at a given point by adding the electric polarization P to the product of the electric field strength E and the electric constant (permittivity) ε₀"@en ;
qudt:hasDimensionVector qkdv:A0E1L-2I0M0H0T1D0 ;
qudt:symbol "0173-1#Z4-BAJ320#002" ;
rdfs:isDefinedBy ;
rdfs:label "areic charge density or electric flux density or electric polarization"@en-US ;
.
quantitykind:AreicDataVolume
a qudt:QuantityKind ;
dcterms:description "Anzahl von Daten, die in der Regel abhängig von der jeweiligen Komplexität der Information oder deren Codierungsverfahren ist, dividiert durch die zugehörige Fläche"@de ;
dcterms:description "volume of data, which is usually dependent on the respective complexity of the information or its coding procedure, divided by the related area"@en ;
qudt:hasDimensionVector qkdv:A0E0L-2I0M0H0T0D0 ;
qudt:symbol "0173-1#Z4-BAJ321#002" ;
rdfs:isDefinedBy ;
rdfs:label "areic data volume"@en-US ;
.
quantitykind:AreicEnergyFlow
a qudt:QuantityKind ;
dcterms:description "Leistung in festgelegter Ausbreitungsrichtung durch ein dazu senkrechtes Oberflächenelement, dividiert durch dessen Fläche"@de ;
dcterms:description "energy in a defined direction of propagation through a surface perpendicular to this, divided by its area"@en ;
qudt:hasDimensionVector qkdv:A0E0L0I0M1H0T-3D0 ;
qudt:symbol "0173-1#Z4-BAJ322#002" ;
rdfs:isDefinedBy ;
rdfs:label "areic energy flow"@en-US ;
.
quantitykind:AreicHeatFlowRate
a qudt:QuantityKind ;
dcterms:description "Density of heat flow rate."^^rdf:HTML ;
qudt:abbreviation "heat-flow-rate" ;
qudt:applicableUnit unit:BTU_IT-PER-HR-FT2 ;
qudt:applicableUnit unit:BTU_IT-PER-SEC-FT2 ;
qudt:applicableUnit unit:ERG-PER-CentiM2-SEC ;
qudt:applicableUnit unit:FT-LB_F-PER-FT2-SEC ;
qudt:applicableUnit unit:J-PER-CentiM2-DAY ;
qudt:applicableUnit unit:KiloCAL-PER-CentiM2-MIN ;
qudt:applicableUnit unit:KiloCAL-PER-CentiM2-SEC ;
qudt:applicableUnit unit:MicroW-PER-M2 ;
qudt:applicableUnit unit:MilliW-PER-M2 ;
qudt:applicableUnit unit:PicoW-PER-M2 ;
qudt:applicableUnit unit:W-PER-CentiM2 ;
qudt:applicableUnit unit:W-PER-FT2 ;
qudt:applicableUnit unit:W-PER-IN2 ;
qudt:applicableUnit unit:W-PER-M2 ;
qudt:hasDimensionVector qkdv:A0E0L0I0M1H0T-3D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Rate_of_heat_flow"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\varphi = \\frac{\\Phi}{A}\\), where \\(\\Phi\\) is heat flow rate and \\(A\\) is area."^^qudt:LatexString ;
qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ;
qudt:plainTextDescription "Density of heat flow rate." ;
qudt:symbol "φ" ;
rdfs:isDefinedBy ;
rdfs:label "Aeric Heat Flow Rate"@en ;
skos:broader quantitykind:PowerPerArea ;
skos:closeMatch ;
.
quantitykind:AreicMass
a qudt:QuantityKind ;
dcterms:description "Masse dividiert durch die zugehörige Fläche"@de ;
dcterms:description "mass divided by the related area"@en ;
qudt:hasDimensionVector qkdv:A0E0L-2I0M1H0T0D0 ;
qudt:symbol "0173-1#Z4-BAJ288#004" ;
rdfs:isDefinedBy ;
rdfs:label "areic mass"@en-US ;
.
quantitykind:AreicTorque
a qudt:QuantityKind ;
dcterms:description "Quotient aus dem auf eine Fläche wirkenden, eine Verdrehung bzw. Abscherung verursachenden Drehmoment dividiert durch diese Fläche"@de ;
dcterms:description "ratio of a torque acting on a surface and causing a rotation or shearing divided by this area"@en ;
qudt:hasDimensionVector qkdv:A0E0L0I0M1H0T-2D0 ;
qudt:symbol "0173-1#Z4-BAJ420#001" ;
rdfs:isDefinedBy ;
rdfs:label "areic torque"@en-US ;
.
quantitykind:Asset
a qudt:QuantityKind ;
dcterms:description "An Asset is an economic resource owned by a business or company. Simply stated, assets are things of value that can be readily converted into cash (although cash itself is also considered an asset)."^^rdf:HTML ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:plainTextDescription "An Asset is an economic resource owned by a business or company. Simply stated, assets are things of value that can be readily converted into cash (although cash itself is also considered an asset)." ;
rdfs:isDefinedBy ;
rdfs:label "Asset"@en ;
.
quantitykind:AtmosphericHydroxylationRate
a qudt:QuantityKind ;
dcterms:description "A second order reaction rate constant that is a specific second order reaction rate constant that governs the kinetics of an atmospheric, gas-phase reaction between hydroxyl radicals and an organic chemical."^^rdf:HTML ;
qudt:applicableUnit unit:CentiM3-PER-MOL-SEC ;
qudt:applicableUnit unit:M3-PER-MOL-SEC ;
qudt:hasDimensionVector qkdv:A-1E0L3I0M0H0T-1D0 ;
qudt:plainTextDescription "A second order reaction rate constant that is a specific second order reaction rate constant that governs the kinetics of an atmospheric, gas-phase reaction between hydroxyl radicals and an organic chemical." ;
rdfs:isDefinedBy ;
rdfs:label "Atmospheric Hydroxylation Rate"@en ;
skos:broader quantitykind:SecondOrderReactionRateConstant ;
.
quantitykind:AtmosphericPressure
a qudt:QuantityKind ;
dcterms:description "The pressure exerted by the weight of the air above it at any point on the earth's surface. At sea level the atmosphere will support a column of mercury about \\(760 mm\\) high. This decreases with increasing altitude. The standard value for the atmospheric pressure at sea level in SI units is \\(101,325 pascals\\)."^^qudt:LatexString ;
qudt:applicableUnit unit:KiloN-PER-M2 ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Atmospheric_pressure"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L-1I0M1H0T-2D0 ;
qudt:informativeReference "http://www.oxfordreference.com/views/ENTRY.html?subview=Main&entry=t83.e178"^^xsd:anyURI ;
rdfs:isDefinedBy ;
rdfs:label "Atmospheric Pressure"@en ;
skos:broader quantitykind:Pressure ;
.
quantitykind:AtomScatteringFactor
a qudt:QuantityKind ;
dcterms:description "\"Atom Scattering Factor\" is measure of the scattering power of an isolated atom."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://reference.iucr.org/dictionary/Atomic_scattering_factor"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ;
qudt:latexDefinition "\\(f = \\frac{E_a}{E_e}\\), where \\(E_a\\) is the radiation amplitude scattered by the atom and \\(E_e\\) is the radiation ampliture scattered by a single electron."^^qudt:LatexString ;
qudt:plainTextDescription "\"Atom Scattering Factor\" is measure of the scattering power of an isolated atom." ;
qudt:symbol "f" ;
rdfs:isDefinedBy ;
rdfs:label "Atom Scattering Factor"@en ;
.
quantitykind:AtomicAttenuationCoefficient
a qudt:QuantityKind ;
dcterms:description "\"Atomic Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per the number of atoms in the substance."^^rdf:HTML ;
qudt:applicableUnit unit:AC ;
qudt:applicableUnit unit:ARE ;
qudt:applicableUnit unit:BARN ;
qudt:applicableUnit unit:CentiM2 ;
qudt:applicableUnit unit:DecaARE ;
qudt:applicableUnit unit:DeciM2 ;
qudt:applicableUnit unit:FT2 ;
qudt:applicableUnit unit:HA ;
qudt:applicableUnit unit:IN2 ;
qudt:applicableUnit unit:KiloMIL_Circ ;
qudt:applicableUnit unit:M2 ;
qudt:applicableUnit unit:MI2 ;
qudt:applicableUnit unit:MIL_Circ ;
qudt:applicableUnit unit:MI_US2 ;
qudt:applicableUnit unit:MicroM2 ;
qudt:applicableUnit unit:MilliM2 ;
qudt:applicableUnit unit:NanoM2 ;
qudt:applicableUnit unit:PlanckArea ;
qudt:applicableUnit unit:YD2 ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Attenuation_coefficient"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\mu_a = -\\frac{\\mu}{n}\\), where \\(\\mu\\) is the linear attenuation coefficient and \\(n\\) is the number density of the atoms in the substance."^^qudt:LatexString ;
qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:plainTextDescription "\"Atomic Attenuation Coefficient\" is a measurement of how strongly a chemical species or substance absorbs or scatters light at a given wavelength, per the number of atoms in the substance." ;
qudt:symbol "μₐ" ;
rdfs:isDefinedBy ;
rdfs:label "Atomic Attenuation Coefficient"@en ;
skos:broader quantitykind:Area ;
skos:closeMatch quantitykind:MolarAttenuationCoefficient ;
.
quantitykind:AtomicCharge
a qudt:QuantityKind ;
dcterms:description "The electric charge of an ion, equal to the number of electrons the atom has gained or lost in its ionization multiplied by the charge on one electron."^^rdf:HTML ;
qudt:applicableUnit unit:A-HR ;
qudt:applicableUnit unit:A-SEC ;
qudt:applicableUnit unit:AttoC ;
qudt:applicableUnit unit:C ;
qudt:applicableUnit unit:C_Ab ;
qudt:applicableUnit unit:C_Stat ;
qudt:applicableUnit unit:CentiC ;
qudt:applicableUnit unit:DecaC ;
qudt:applicableUnit unit:DeciC ;
qudt:applicableUnit unit:E ;
qudt:applicableUnit unit:ElementaryCharge ;
qudt:applicableUnit unit:ExaC ;
qudt:applicableUnit unit:F ;
qudt:applicableUnit unit:FR ;
qudt:applicableUnit unit:FemtoC ;
qudt:applicableUnit unit:GigaC ;
qudt:applicableUnit unit:HectoC ;
qudt:applicableUnit unit:KiloA-HR ;
qudt:applicableUnit unit:KiloC ;
qudt:applicableUnit unit:MegaC ;
qudt:applicableUnit unit:MicroC ;
qudt:applicableUnit unit:MilliA-HR ;
qudt:applicableUnit unit:MilliC ;
qudt:applicableUnit unit:NanoC ;
qudt:applicableUnit unit:PetaC ;
qudt:applicableUnit unit:PicoC ;
qudt:applicableUnit unit:PlanckCharge ;
qudt:applicableUnit unit:TeraC ;
qudt:applicableUnit unit:YoctoC ;
qudt:applicableUnit unit:YottaC ;
qudt:applicableUnit unit:ZeptoC ;
qudt:applicableUnit unit:ZettaC ;
qudt:hasDimensionVector qkdv:A0E1L0I0M0H0T1D0 ;
qudt:informativeReference "http://www.answers.com/topic/atomic-charge"^^xsd:anyURI ;
qudt:plainTextDescription "The electric charge of an ion, equal to the number of electrons the atom has gained or lost in its ionization multiplied by the charge on one electron." ;
rdfs:isDefinedBy ;
rdfs:label "Atomic Charge"@en ;
skos:broader quantitykind:ElectricCharge ;
.
quantitykind:AtomicEnergy
a qudt:QuantityKind ;
dcterms:description "scalar quantity of elementary particles which is retained within a system following any change and, as saved energy, constitutes the capability of a physical system to carry out work"@en ;
dcterms:description "skalare Größe von Elementarteilchen, die bei beliebiger Umwandlung innerhalb eines Systems erhalten bleibt und als gespeichertes Arbeitsvermögen die Fähigkeit eines physikalischen Systems darstellt, Arbeit zu verrichten"@de ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-2D0 ;
qudt:symbol "0173-1#Z4-BAJ291#002" ;
rdfs:isDefinedBy ;
rdfs:label "atomic energy"@en-US ;
.
quantitykind:AtomicMass
a qudt:QuantityKind ;
dcterms:description "The \"Atomic Mass\" is the mass of a specific isotope, most often expressed in unified atomic mass units."^^rdf:HTML ;
qudt:applicableUnit unit:AMU ;
qudt:applicableUnit unit:CARAT ;
qudt:applicableUnit unit:CWT_LONG ;
qudt:applicableUnit unit:CWT_SHORT ;
qudt:applicableUnit unit:CentiGM ;
qudt:applicableUnit unit:DRAM_UK ;
qudt:applicableUnit unit:DRAM_US ;
qudt:applicableUnit unit:DWT ;
qudt:applicableUnit unit:DecaGM ;
qudt:applicableUnit unit:DeciGM ;
qudt:applicableUnit unit:DeciTONNE ;
qudt:applicableUnit unit:DeciTON_Metric ;
qudt:applicableUnit unit:EarthMass ;
qudt:applicableUnit unit:FemtoGM ;
qudt:applicableUnit unit:GM ;
qudt:applicableUnit unit:GRAIN ;
qudt:applicableUnit unit:HectoGM ;
qudt:applicableUnit unit:Hundredweight_UK ;
qudt:applicableUnit unit:Hundredweight_US ;
qudt:applicableUnit unit:KiloGM ;
qudt:applicableUnit unit:KiloTONNE ;
qudt:applicableUnit unit:KiloTON_Metric ;
qudt:applicableUnit unit:LB ;
qudt:applicableUnit unit:LB_M ;
qudt:applicableUnit unit:LB_T ;
qudt:applicableUnit unit:LunarMass ;
qudt:applicableUnit unit:MegaGM ;
qudt:applicableUnit unit:MicroGM ;
qudt:applicableUnit unit:MilliGM ;
qudt:applicableUnit unit:NanoGM ;
qudt:applicableUnit unit:OZ ;
qudt:applicableUnit unit:OZ_M ;
qudt:applicableUnit unit:OZ_TROY ;
qudt:applicableUnit unit:Pennyweight ;
qudt:applicableUnit unit:PicoGM ;
qudt:applicableUnit unit:PlanckMass ;
qudt:applicableUnit unit:Quarter_UK ;
qudt:applicableUnit unit:SLUG ;
qudt:applicableUnit unit:SolarMass ;
qudt:applicableUnit unit:Stone_UK ;
qudt:applicableUnit unit:TON ;
qudt:applicableUnit unit:TONNE ;
qudt:applicableUnit unit:TON_Assay ;
qudt:applicableUnit unit:TON_LONG ;
qudt:applicableUnit unit:TON_Metric ;
qudt:applicableUnit unit:TON_SHORT ;
qudt:applicableUnit unit:TON_UK ;
qudt:applicableUnit unit:TON_US ;
qudt:applicableUnit unit:U ;
qudt:hasDimensionVector qkdv:A0E0L0I0M1H0T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Atomic_mass"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:plainTextDescription "The \"Atomic Mass\" is the mass of a specific isotope, most often expressed in unified atomic mass units." ;
qudt:symbol "m_a" ;
rdfs:isDefinedBy ;
rdfs:label "Atomic Mass"@en ;
skos:broader quantitykind:Mass ;
.
quantitykind:AtomicNumber
a qudt:QuantityKind ;
dcterms:description "The \"Atomic Number\", also known as the proton number, is the number of protons found in the nucleus of an atom and therefore identical to the charge number of the nucleus. A nuclide is a species of atom with specified numbers of protons and neutrons. Nuclides with the same value of Z but different values of N are called isotopes of an element. The ordinal number of an element in the periodic table is equal to the atomic number. The atomic number equals the charge of the nucleus in units of the elementary charge."^^rdf:HTML ;
qudt:applicableUnit unit:Z ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Atomic_number"^^xsd:anyURI ;
qudt:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31895"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31894"^^xsd:anyURI ;
qudt:plainTextDescription "The \"Atomic Number\", also known as the proton number, is the number of protons found in the nucleus of an atom and therefore identical to the charge number of the nucleus. A nuclide is a species of atom with specified numbers of protons and neutrons. Nuclides with the same value of Z but different values of N are called isotopes of an element. The ordinal number of an element in the periodic table is equal to the atomic number. The atomic number equals the charge of the nucleus in units of the elementary charge." ;
qudt:symbol "Z" ;
rdfs:isDefinedBy ;
rdfs:label "Atomic Number"@en ;
skos:broader quantitykind:Count ;
.
quantitykind:AtomicStoppingPower
a qudt:QuantityKind ;
dcterms:description "Quotient aus dem linearen Bremsvermögen und der Anzahldichte der Atome in dem Medium"@de ;
dcterms:description "ratio of the linear stopping power to the number density of the atoms in the medium"@en ;
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qudt:symbol "0173-1#Z4-BAJ292#002" ;
rdfs:isDefinedBy ;
rdfs:label "atomic stopping power"@en-US ;
.
quantitykind:AttenuationCoefficient
a qudt:QuantityKind ;
dcterms:description "The attenuation coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter. A large attenuation coefficient means that the beam is quickly \"attenuated\" (weakened) as it passes through the medium, and a small attenuation coefficient means that the medium is relatively transparent to the beam. The Attenuation Coefficient is also called linear attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient."^^rdf:HTML ;
qudt:applicableUnit unit:PER-KiloM ;
qudt:applicableUnit unit:PER-M ;
qudt:applicableUnit unit:PER-MicroM ;
qudt:applicableUnit unit:PER-MilliM ;
qudt:applicableUnit unit:PER-NanoM ;
qudt:applicableUnit unit:PER-PicoM ;
qudt:applicableUnit unit:PERCENT-PER-M ;
qudt:hasDimensionVector qkdv:A0E0L-1I0M0H0T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Attenuation_coefficient"^^xsd:anyURI ;
qudt:latexDefinition "\\(F(x) = Ae^{-\\alpha x} \\cos{[\\beta (x - x_0)]}\\), then \\(\\alpha\\) is the attenuation coefficient and \\(\\beta\\) is the phase coefficient."^^qudt:LatexString ;
qudt:latexSymbol "\\(\\alpha\\)"^^qudt:LatexString ;
qudt:plainTextDescription "The attenuation coefficient is a quantity that characterizes how easily a material or medium can be penetrated by a beam of light, sound, particles, or other energy or matter. A large attenuation coefficient means that the beam is quickly \"attenuated\" (weakened) as it passes through the medium, and a small attenuation coefficient means that the medium is relatively transparent to the beam. The Attenuation Coefficient is also called linear attenuation coefficient, narrow beam attenuation coefficient, or absorption coefficient." ;
vaem:todo "belongs to SOQ-ISO" ;
rdfs:isDefinedBy ;
rdfs:label "Attenuation Coefficient"@en ;
.
quantitykind:AuditoryThresholds
a qudt:QuantityKind ;
dcterms:description "\"Auditory Thresholds\" is the thresholds of sensitivity to auditory signals and other input to the ear or the sense of hearing."^^rdf:HTML ;
qudt:applicableUnit unit:B ;
qudt:applicableUnit unit:DeciB ;
qudt:applicableUnit unit:DeciB_M ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ;
qudt:latexSymbol "\\(\\overline{T_a}\\)"^^qudt:LatexString ;
qudt:plainTextDescription "\"Auditory Thresholds\" is the thresholds of sensitivity to auditory signals and other input to the ear or the sense of hearing." ;
rdfs:isDefinedBy ;
rdfs:label "Auditory Thresholds"@en ;
skos:broader quantitykind:SoundPowerLevel ;
.
quantitykind:AuxillaryMagneticField
a qudt:QuantityKind ;
dcterms:description "Magnetic Fields surround magnetic materials and electric currents and are detected by the force they exert on other magnetic materials and moving electric charges. The electric and magnetic fields are two interrelated aspects of a single object, called the electromagnetic field. A pure electric field in one reference frame is observed as a combination of both an electric field and a magnetic field in a moving reference frame. The Auxillary Magnetic Field, H characterizes how the true Magnetic Field B influences the organization of magnetic dipoles in a given medium."^^rdf:HTML ;
qudt:applicableUnit unit:A-PER-CentiM ;
qudt:applicableUnit unit:A-PER-M ;
qudt:applicableUnit unit:A-PER-MilliM ;
qudt:applicableUnit unit:AT-PER-IN ;
qudt:applicableUnit unit:AT-PER-M ;
qudt:applicableUnit unit:KiloA-PER-M ;
qudt:applicableUnit unit:MilliA-PER-IN ;
qudt:applicableUnit unit:MilliA-PER-MilliM ;
qudt:applicableUnit unit:OERSTED ;
qudt:hasDimensionVector qkdv:A0E1L-1I0M0H0T0D0 ;
qudt:latexSymbol "H"^^qudt:LatexString ;
qudt:plainTextDescription "Magnetic Fields surround magnetic materials and electric currents and are detected by the force they exert on other magnetic materials and moving electric charges. The electric and magnetic fields are two interrelated aspects of a single object, called the electromagnetic field. A pure electric field in one reference frame is observed as a combination of both an electric field and a magnetic field in a moving reference frame. The Auxillary Magnetic Field, H characterizes how the true Magnetic Field B influences the organization of magnetic dipoles in a given medium." ;
rdfs:isDefinedBy ;
rdfs:label "Auxillary Magnetic Field"@en ;
skos:broader quantitykind:MagneticFieldStrength_H ;
.
quantitykind:AverageEnergyLossPerElementaryChargeProduced
a qudt:QuantityKind ;
dcterms:description "\"Average Energy Loss per Elementary Charge Produced\" is also referred to as average energy loss per ion pair formed."^^rdf:HTML ;
qudt:applicableUnit unit:AttoJ ;
qudt:applicableUnit unit:BTU_IT ;
qudt:applicableUnit unit:BTU_TH ;
qudt:applicableUnit unit:CAL_IT ;
qudt:applicableUnit unit:CAL_TH ;
qudt:applicableUnit unit:ERG ;
qudt:applicableUnit unit:EV ;
qudt:applicableUnit unit:E_h ;
qudt:applicableUnit unit:ExaJ ;
qudt:applicableUnit unit:FT-LB_F ;
qudt:applicableUnit unit:FT-PDL ;
qudt:applicableUnit unit:FemtoJ ;
qudt:applicableUnit unit:GigaEV ;
qudt:applicableUnit unit:GigaJ ;
qudt:applicableUnit unit:GigaW-HR ;
qudt:applicableUnit unit:J ;
qudt:applicableUnit unit:KiloBTU_IT ;
qudt:applicableUnit unit:KiloBTU_TH ;
qudt:applicableUnit unit:KiloCAL ;
qudt:applicableUnit unit:KiloEV ;
qudt:applicableUnit unit:KiloJ ;
qudt:applicableUnit unit:KiloV-A-HR ;
qudt:applicableUnit unit:KiloV-A_Reactive-HR ;
qudt:applicableUnit unit:KiloW-HR ;
qudt:applicableUnit unit:MegaEV ;
qudt:applicableUnit unit:MegaJ ;
qudt:applicableUnit unit:MegaTOE ;
qudt:applicableUnit unit:MegaV-A-HR ;
qudt:applicableUnit unit:MegaV-A_Reactive-HR ;
qudt:applicableUnit unit:MegaW-HR ;
qudt:applicableUnit unit:MicroJ ;
qudt:applicableUnit unit:MilliJ ;
qudt:applicableUnit unit:PetaJ ;
qudt:applicableUnit unit:PlanckEnergy ;
qudt:applicableUnit unit:QUAD ;
qudt:applicableUnit unit:THM_EEC ;
qudt:applicableUnit unit:THM_US ;
qudt:applicableUnit unit:TOE ;
qudt:applicableUnit unit:TeraJ ;
qudt:applicableUnit unit:TeraW-HR ;
qudt:applicableUnit unit:TonEnergy ;
qudt:applicableUnit unit:V-A-HR ;
qudt:applicableUnit unit:V-A_Reactive-HR ;
qudt:applicableUnit unit:W-HR ;
qudt:applicableUnit unit:W-SEC ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-2D0 ;
qudt:latexDefinition "\\(W_i = \\frac{E_k}{N_i}\\), where \\(E_k\\) is the initial kinetic energy of an ionizing charged particle and \\(N_i\\) is the total ionization produced by that particle."^^qudt:LatexString ;
qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:plainTextDescription "\"Average Energy Loss per Elementary Charge Produced\" is also referred to as average energy loss per ion pair formed." ;
qudt:symbol "W_i" ;
rdfs:isDefinedBy ;
rdfs:label "Average Energy Loss per Elementary Charge Produced"@en ;
skos:broader quantitykind:Energy ;
.
quantitykind:AverageHeadEndPressure
a qudt:QuantityKind ;
qudt:abbreviation "AHEP" ;
qudt:applicableUnit unit:KiloN-PER-M2 ;
qudt:hasDimensionVector qkdv:A0E0L-1I0M1H0T-2D0 ;
rdfs:isDefinedBy ;
rdfs:label "Average Head End Pressure"@en ;
skos:broader quantitykind:HeadEndPressure ;
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quantitykind:AverageLogarithmicEnergyDecrement
a qudt:QuantityKind ;
dcterms:description "\"Average Logarithmic Energy Decrement\" is a measure of the amount of energy a neutron loses upon colliding with various nuclei. It is the average value of the increase in lethargy in elastic collisions between neutrons and nuclei whose kinetic energy is negligible compared with that of the neutrons."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://everything2.com/title/Average+logarithmic+energy+decrement+per+collision"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:latexSymbol "\\(\\xi\\)"^^qudt:LatexString ;
qudt:plainTextDescription "\"Average Logarithmic Energy Decrement\" is a measure of the amount of energy a neutron loses upon colliding with various nuclei. It is the average value of the increase in lethargy in elastic collisions between neutrons and nuclei whose kinetic energy is negligible compared with that of the neutrons." ;
rdfs:isDefinedBy ;
rdfs:label "Average Logarithmic Energy Decrement"@en ;
.
quantitykind:AverageSpecificImpulse
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T1D0 ;
rdfs:comment "Avg Specific Impulse (lbf-sec/lbm) " ;
rdfs:isDefinedBy ;
rdfs:label "Average Specific Impulse"@en ;
skos:broader quantitykind:SpecificImpulse ;
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quantitykind:AverageVacuumThrust
a qudt:QuantityKind ;
qudt:applicableUnit unit:CentiN ;
qudt:applicableUnit unit:DYN ;
qudt:applicableUnit unit:DeciN ;
qudt:applicableUnit unit:GM_F ;
qudt:applicableUnit unit:KIP_F ;
qudt:applicableUnit unit:KiloGM_F ;
qudt:applicableUnit unit:KiloLB_F ;
qudt:applicableUnit unit:KiloN ;
qudt:applicableUnit unit:KiloP ;
qudt:applicableUnit unit:KiloPOND ;
qudt:applicableUnit unit:LB_F ;
qudt:applicableUnit unit:MegaLB_F ;
qudt:applicableUnit unit:MegaN ;
qudt:applicableUnit unit:MicroN ;
qudt:applicableUnit unit:MilliN ;
qudt:applicableUnit unit:N ;
qudt:applicableUnit unit:OZ_F ;
qudt:applicableUnit unit:PDL ;
qudt:applicableUnit unit:PlanckForce ;
qudt:applicableUnit unit:TON_F_US ;
qudt:hasDimensionVector qkdv:A0E0L1I0M1H0T-2D0 ;
rdfs:isDefinedBy ;
rdfs:label "Average Vacuum Thrust"@en ;
skos:altLabel "AVT" ;
skos:broader quantitykind:VacuumThrust ;
.
quantitykind:BandwidthDistanceProduct
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T-1D0 ;
qudt:iec61360Code "0112/2///62720#UAD016" ;
rdfs:isDefinedBy ;
rdfs:label "bandwidth distance product" ;
.
quantitykind:BandwidthLengthProduct
a qudt:QuantityKind ;
dcterms:description "Parameter von Übertragungsmedien zur Bestimmung der Frequenz- und Längenrestriktionen als reziproke Wert der Modendispersion entsprechend dem Produkt aus maximaler Impulsfrequenz mal maximaler Übertragungsstrecke"@de ;
dcterms:description "parameter of transmission media for determination of frequency and length restrictions as reciprocal value of the multimode distortion corresponding to the product of maximum pulse frequency and maximum transmission distance"@en ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T-1D0 ;
qudt:symbol "0173-1#Z4-BAJ293#003" ;
rdfs:isDefinedBy ;
rdfs:label "bandwidth length product"@en-US ;
.
quantitykind:Basicity
a qudt:QuantityKind ;
dcterms:description "Chemicals or substances having a pH higher than 7 are said to be basic; higher pH means higher basicity."^^rdf:HTML ;
qudt:applicableUnit unit:PH ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "https://en.wikipedia.org/wiki/Base_(chemistry)"^^xsd:anyURI ;
qudt:informativeReference "https://en.wikipedia.org/wiki/PH"^^xsd:anyURI ;
qudt:plainTextDescription "Chemicals or substances having a pH higher than 7 are said to be basic; higher pH means higher basicity." ;
rdfs:isDefinedBy ;
rdfs:label "Acidity"@en ;
skos:broader quantitykind:PH ;
.
quantitykind:BatteryCapacity
a qudt:QuantityKind ;
dcterms:description "Elektrizitätsmenge oder elektrische Ladung, die eine vollgeladenen Batterie unter festgelegten Bedingungen abgeben kann als Produkt aus Entladestrom und Entladezeit"@de ;
dcterms:description "quantity of electricity or electrical charge which a fully charged battery can supply under specified conditions as a product of discharge current and discharge time"@en ;
qudt:hasDimensionVector qkdv:A0E1L0I0M0H0T1D0 ;
qudt:iec61360Code "0112/2///62720#UAD017" ;
qudt:symbol "0173-1#Z4-BAJ270#003" ;
rdfs:isDefinedBy ;
rdfs:label "battery capacity" ;
rdfs:label "battery capacity"@en-US ;
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quantitykind:BendingMomentOfForce
a qudt:QuantityKind ;
dcterms:description "A bending moment exists in a structural element when a moment is applied to the element so that the element bends. It is the component of moment of force perpendicular to the longitudinal axis of a beam or a shaft."^^rdf:HTML ;
qudt:applicableUnit unit:CentiN-M ;
qudt:applicableUnit unit:DYN-CentiM ;
qudt:applicableUnit unit:DeciN-M ;
qudt:applicableUnit unit:FT-LB_F ;
qudt:applicableUnit unit:KiloGM_F-M ;
qudt:applicableUnit unit:KiloN-M ;
qudt:applicableUnit unit:LB_F-FT ;
qudt:applicableUnit unit:LB_F-IN ;
qudt:applicableUnit unit:MegaN-M ;
qudt:applicableUnit unit:MicroN-M ;
qudt:applicableUnit unit:MilliN-M ;
qudt:applicableUnit unit:N-CentiM ;
qudt:applicableUnit unit:N-M ;
qudt:applicableUnit unit:OZ_F-IN ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Torque"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-2D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Bending_moment"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ;
qudt:latexDefinition "\\(M_b = M \\cdot e_Q\\), where \\(M\\) is the momentof force and \\(e_Q\\) is a unit vector directed along a \\(Q-axis\\) with respect to which the torque is considered."^^qudt:LatexString ;
qudt:plainTextDescription "A bending moment exists in a structural element when a moment is applied to the element so that the element bends. It is the component of moment of force perpendicular to the longitudinal axis of a beam or a shaft." ;
qudt:symbol "M_b" ;
rdfs:isDefinedBy ;
rdfs:label "Bending Moment of Force"@en ;
skos:broader quantitykind:Torque ;
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quantitykind:BetaDisintegrationEnergy
a qudt:QuantityKind ;
dcterms:description "\"Beta Disintegration Energy\" is the energy released by a beta particle radioactive decay. It is the sum of the maximum beta-particle kinetic energy and the recoil energy of the atom produced in the reference frame in which the emitting nucleus is at rest before its disintegration."^^rdf:HTML ;
qudt:applicableUnit unit:AttoJ ;
qudt:applicableUnit unit:BTU_IT ;
qudt:applicableUnit unit:BTU_TH ;
qudt:applicableUnit unit:CAL_IT ;
qudt:applicableUnit unit:CAL_TH ;
qudt:applicableUnit unit:ERG ;
qudt:applicableUnit unit:EV ;
qudt:applicableUnit unit:E_h ;
qudt:applicableUnit unit:ExaJ ;
qudt:applicableUnit unit:FT-LB_F ;
qudt:applicableUnit unit:FT-PDL ;
qudt:applicableUnit unit:FemtoJ ;
qudt:applicableUnit unit:GigaEV ;
qudt:applicableUnit unit:GigaJ ;
qudt:applicableUnit unit:GigaW-HR ;
qudt:applicableUnit unit:J ;
qudt:applicableUnit unit:KiloBTU_IT ;
qudt:applicableUnit unit:KiloBTU_TH ;
qudt:applicableUnit unit:KiloCAL ;
qudt:applicableUnit unit:KiloEV ;
qudt:applicableUnit unit:KiloJ ;
qudt:applicableUnit unit:KiloV-A-HR ;
qudt:applicableUnit unit:KiloV-A_Reactive-HR ;
qudt:applicableUnit unit:KiloW-HR ;
qudt:applicableUnit unit:MegaEV ;
qudt:applicableUnit unit:MegaJ ;
qudt:applicableUnit unit:MegaTOE ;
qudt:applicableUnit unit:MegaV-A-HR ;
qudt:applicableUnit unit:MegaV-A_Reactive-HR ;
qudt:applicableUnit unit:MegaW-HR ;
qudt:applicableUnit unit:MicroJ ;
qudt:applicableUnit unit:MilliJ ;
qudt:applicableUnit unit:PetaJ ;
qudt:applicableUnit unit:PlanckEnergy ;
qudt:applicableUnit unit:QUAD ;
qudt:applicableUnit unit:THM_EEC ;
qudt:applicableUnit unit:THM_US ;
qudt:applicableUnit unit:TOE ;
qudt:applicableUnit unit:TeraJ ;
qudt:applicableUnit unit:TeraW-HR ;
qudt:applicableUnit unit:TonEnergy ;
qudt:applicableUnit unit:V-A-HR ;
qudt:applicableUnit unit:V-A_Reactive-HR ;
qudt:applicableUnit unit:W-HR ;
qudt:applicableUnit unit:W-SEC ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-2D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Decay_energy"^^xsd:anyURI ;
qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:plainTextDescription "\"Beta Disintegration Energy\" is the energy released by a beta particle radioactive decay. It is the sum of the maximum beta-particle kinetic energy and the recoil energy of the atom produced in the reference frame in which the emitting nucleus is at rest before its disintegration." ;
qudt:symbol "Qᵦ" ;
rdfs:isDefinedBy ;
rdfs:label "Beta Disintegration Energy"@en ;
skos:broader quantitykind:Energy ;
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quantitykind:BevelGearPitchAngle
a qudt:QuantityKind ;
dcterms:description "Pitch angle in bevel gears is the angle between an element of a pitch cone and its axis. In external and internal bevel gears, the pitch angles are respectively less than and greater than 90 degrees."^^rdf:HTML ;
qudt:applicableUnit unit:ARCMIN ;
qudt:applicableUnit unit:ARCSEC ;
qudt:applicableUnit unit:DEG ;
qudt:applicableUnit unit:GON ;
qudt:applicableUnit unit:GRAD ;
qudt:applicableUnit unit:MIL ;
qudt:applicableUnit unit:MIN_Angle ;
qudt:applicableUnit unit:MicroRAD ;
qudt:applicableUnit unit:MilliARCSEC ;
qudt:applicableUnit unit:MilliRAD ;
qudt:applicableUnit unit:RAD ;
qudt:applicableUnit unit:REV ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:latexSymbol "\\(\\theta\\)"^^qudt:LatexString ;
qudt:plainTextDescription "Pitch angle in bevel gears is the angle between an element of a pitch cone and its axis. In external and internal bevel gears, the pitch angles are respectively less than and greater than 90 degrees." ;
rdfs:isDefinedBy ;
rdfs:label "Bevel Gear Pitch Angle"@en ;
skos:broader quantitykind:Angle ;
.
quantitykind:BindingFraction
a qudt:QuantityKind ;
dcterms:description "The \"Binding Fraction\" is the ratio of the binding energy of a nucleus to the atomic mass number."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://encyclopedia2.thefreedictionary.com/binding+fraction"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:latexDefinition "\\(b = \\frac{B_r}{A}\\), where \\(B_r\\) is the relative mass defect and \\(A\\) is the nucleon number."^^qudt:LatexString ;
qudt:plainTextDescription "The \"Binding Fraction\" is the ratio of the binding energy of a nucleus to the atomic mass number." ;
qudt:symbol "b" ;
rdfs:isDefinedBy ;
rdfs:label "Binding Fraction"@en ;
.
quantitykind:BioconcentrationFactor
a qudt:QuantityKind ;
dcterms:description "The bioconcentration factor is the ratio of the concentration of a chemical substance in biota over the concentration of the same chemical substance in water. It is related to the octanol-water partition coefficient."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:plainTextDescription "The bioconcentration factor is the ratio of the concentration of a chemical substance in biota over the concentration of the same chemical substance in water. It is related to the octanol-water partition coefficient." ;
rdfs:isDefinedBy ;
rdfs:label "Bioconcentration Factor"@en ;
skos:broader quantitykind:DimensionlessRatio ;
.
quantitykind:BiodegredationHalfLife
a qudt:QuantityKind ;
dcterms:description "A time that quantifies how long it takes to reduce a substance's concentration by 50% from any concentration point in time in a water or soil environment by either bacteria or another living organism."^^rdf:HTML ;
qudt:applicableUnit unit:DAY ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T1D0 ;
qudt:plainTextDescription "A time that quantifies how long it takes to reduce a substance's concentration by 50% from any concentration point in time in a water or soil environment by either bacteria or another living organism." ;
rdfs:isDefinedBy ;
rdfs:label "Biodegredation Half Life"@en ;
skos:broader quantitykind:Time ;
.
quantitykind:BitDataVolume
a qudt:QuantityKind ;
dcterms:description "Bezeichnung für eine bestimmte Anzahl von Daten auf Basis der Binärziffer Bit (en: Basic Indissoluble Information Unit, dt: kleinstmögliche Informationseinheit), welche nur den Zustand 1 oder 0 annehmen kann"@de ;
dcterms:description "name for a particular quantity of data on the basis of the binary digit \"Bit\" (basic indissoluble information unit) which can only assume a state of 1 or 0"@en ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:symbol "0173-1#Z4-BAJ436#002" ;
rdfs:isDefinedBy ;
rdfs:label "bit data volume"@en-US ;
.
quantitykind:BitRate
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T-1D0 ;
qudt:iec61360Code "0112/2///62720#UAD018" ;
rdfs:isDefinedBy ;
rdfs:label "bit rate" ;
.
quantitykind:BitTransmissionRate
a qudt:QuantityKind ;
dcterms:description "Geschwindigkeit, mit der Binärzeichen übertragen werden"@de ;
dcterms:description "speed with which one bit will be transmitted per second"@en ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T-1D0 ;
qudt:symbol "0173-1#Z4-BAJ295#003" ;
rdfs:isDefinedBy ;
rdfs:label "bit transmission rate"@en-US ;
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quantitykind:BloodGlucoseLevel
a qudt:QuantityKind ;
dcterms:description "The blood sugar level, blood sugar concentration, or blood glucose level is the amount of glucose present in the blood of humans and other animals. Glucose is a simple sugar and approximately 4 grams of glucose are present in the blood of humans at all times. The body tightly regulates blood glucose levels as a part of metabolic homeostasis. Glucose is stored in skeletal muscle and liver cells in the form of glycogen;[2] in fasted individuals, blood glucose is maintained at a constant level at the expense of glycogen stores in the liver and skeletal muscle. [Wikipedia] \\(\\\\\\) There are two main methods of describing concentrations: by weight, and by molecular count. Weights are in grams, molecular counts in moles. A mole is \\(6.022\\times 10^{23}\\) molecules.) In both cases, the unit is usually modified by \\(milli-\\) or \\(micro-\\) or other prefix, and is always \\(per\\) some volume, often a liter. Conversion factors depend on the molecular weight of the substance in question. \\(\\\\\\) \\(mmol/L\\) is millimoles/liter, and is the world standard unit for measuring glucose in blood. Specifically, it is the designated SI (Systeme International) unit. 'World standard' is not universal; not only the US but a number of other countries use mg/dl. A mole is about \\(6\\times 10^{23}\\) molecules. \\(\\\\\\) \\(mg/dL\\) (milligrams/deciliter) is the traditional unit for measuring bG (blood glucose). There is a trend toward using \\(mmol/L\\) however mg/dL is much in practice. Some use is made of \\(mmol/L\\) as the primary unit with \\(mg/dL\\) quoted in parentheses. This acknowledges the large base of health care providers, researchers and patients who are already familiar with \\(mg/dL|)."^^qudt:LatexString ;
qudt:applicableUnit unit:MilliMOL-PER-L ;
qudt:hasDimensionVector qkdv:A1E0L-3I0M0H0T0D0 ;
qudt:informativeReference "http://www.faqs.org/faqs/diabetes/faq/part1/section-9.html"^^xsd:anyURI ;
rdfs:comment "citation: https://en.wikipedia.org/wiki/Blood_sugar_level" ;
rdfs:isDefinedBy ;
rdfs:label "Blood Glucose Level"@en ;
rdfs:seeAlso quantitykind:BloodGlucoseLevel_Mass ;
.
quantitykind:BloodGlucoseLevel_Mass
a qudt:QuantityKind ;
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rdfs:label "coordenadas cartesianas"@pt ;
rdfs:label "coordinate cartesiane"@it ;
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rdfs:label "Isipadu"@ms ;
rdfs:label "Objem"@cs ;
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rdfs:label "hacim"@tr ;
rdfs:label "objętość"@pl ;
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rdfs:label "volume"@fr ;
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rdfs:label "Επιτάχυνση"@el ;
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rdfs:label "Объём"@ru ;
rdfs:label "נפח"@he ;
rdfs:label "حجم"@ar ;
rdfs:label "حجم"@fa ;
rdfs:label "आयतन"@hi ;
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rdfs:label "Celsius temperature"@en ;
rdfs:label "Celsius-Temperatur"@de ;
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rdfs:label "temperatura Celsius"@es ;
rdfs:label "temperatura Celsius"@it ;
rdfs:label "temperatura celsius"@pt ;
rdfs:label "temperatura"@pl ;
rdfs:label "temperatura"@sl ;
rdfs:label "temperatură Celsius"@ro ;
rdfs:label "température Celsius"@fr ;
rdfs:label "teplota"@cs ;
rdfs:label "Температура Цельсия"@ru ;
rdfs:label "צלזיוס"@he ;
rdfs:label "درجة الحرارة المئوية أو السيلسيوس"@ar ;
rdfs:label "دمای سلسیوس/سانتیگراد"@fa ;
rdfs:label "सेल्सियस तापमान"@hi ;
rdfs:label "温度"@ja ;
rdfs:label "温度"@zh ;
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qudt:latexDefinition "\\(Z_c = pc\\), where \\(p\\) is the sound pressure and \\(c\\) is the phase speed of sound."^^qudt:LatexString ;
qudt:symbol "Z" ;
vaem:todo "belongs to SOQ-ISO" ;
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rdfs:label "Characteristic Velocity"@en ;
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qudt:applicableUnit unit:J-PER-MOL ;
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qudt:latexDefinition "\\(A = -\\sum \\nu_b\\mu_B\\), where \\(\\nu_b\\) is the stoichiometric number of substance \\(B\\) and \\(\\mu_B\\) is the chemical potential of substance \\(B\\)."^^qudt:LatexString ;
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qudt:plainTextDescription "In the context of a chemical durability test, this is measure of how much of a solution (often a corrosive or reactive one) is consumed or used up per unit mass of a material being tested. In other words, this the volume of solution needed to cause a certain level of chemical reaction or damage to a given mass of the material." ;
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rdfs:label "Chemical Consumption per Mass"@en ;
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dcterms:description "\"Chemical Potential\", also known as partial molar free energy, is a form of potential energy that can be absorbed or released during a chemical reaction."^^rdf:HTML ;
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qudt:latexDefinition "\\(\\mu_B = (\\frac{\\partial G}{\\partial n_B})_{T,p,n_i}\\), where \\(G\\) is Gibbs energy, and \\(n_B\\) is the amount of substance \\(B\\)."^^qudt:LatexString ;
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rdfs:label "Chemický potenciál"@cs ;
rdfs:label "Keupayaan kimia"@ms ;
rdfs:label "Potencjał chemiczny"@pl ;
rdfs:label "Potențial chimic"@ro ;
rdfs:label "chemical potential"@en ;
rdfs:label "chemisches Potential des Stoffs B"@de ;
rdfs:label "kimyasal potansiyel"@tr ;
rdfs:label "potencial químico"@es ;
rdfs:label "potencial químico"@pt ;
rdfs:label "potential chimique"@fr ;
rdfs:label "potenziale chimico"@it ;
rdfs:label "Химический потенциал"@ru ;
rdfs:label "جهد كيميائي"@ar ;
rdfs:label "پتانسیل شیمیایی"@fa ;
rdfs:label "化学ポテンシャル"@ja ;
rdfs:label "化学势"@zh ;
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quantitykind:Chromaticity
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dcterms:description "Chromaticity is an objective specification of the quality of a color regardless of its luminance"^^rdf:HTML ;
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rdfs:label "Chromaticity"@en ;
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qudt:plainTextDescription "In fluid dynamics, circulation is the line integral around a closed curve of the fluid velocity. It has dimensions of length squared over time." ;
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rdfs:label "Circulation"@en ;
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qudt:latexDefinition """\"Coefficient of Heat Transfer\", in thermodynamics and in mechanical and chemical engineering, is used in calculating the heat transfer, typically by convection or phase transition between a fluid and a solid. The heat transfer coefficient is the proportionality coefficient between the heat flux, that is heat flow per unit area, \\(q/A\\), and the thermodynamic driving force for the flow of heat (that is, the temperature difference, \\( \\bigtriangleup T \\)). Areic heat flow rate divided by thermodynamic temperature difference. In building technology, the \\(\\textit{Coefficient of Heat Transfer}\\), is often called \\(\\textit{thermal transmittance}\\), with the symbol \\(U\\). \\(\\textit{Coefficient of Heat Transfer}\\), has SI units in watts per squared meter kelvin: \\(W/(m^2 \\cdot K)\\) .
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qudt:plainTextDescription "\"Coefficient of Heat Transfer\", in thermodynamics and in mechanical and chemical engineering, is used in calculating the heat transfer, typically by convection or phase transition between a fluid and a solid. The heat transfer coefficient is the proportionality coefficient between the heat flux, that is heat flow per unit area, q/A, and the thermodynamic driving force for the flow of heat (that is, the temperature difference, (Delta T). Areic heat flow rate divided by thermodynamic temperature difference. In building technology, the \"Coefficient of Heat Transfer\", is often called \"thermal transmittance}\" with the symbol \"U\". It has SI units in watts per squared meter kelvin." ;
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rdfs:label "Coefficient of heat transfer"@en ;
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dcterms:description "\\(\\textit{Coercivity}\\), also referred to as \\(\\textit{Coercive Field Strength}\\), is the magnetic field strength to be applied to bring the magnetic flux density in a substance from its remaining magnetic flux density to zero. This is defined as the coercive field strength in a substance when either the magnetic flux density or the magnetic polarization and magnetization is brought from its value at magnetic saturation to zero by monotonic reduction of the applied magnetic field strength. The quantity which is brought to zero should be stated, and the appropriate symbol used: \\(H_{cB}\\), \\(H_{cJ}\\) or \\(H_{cM}\\) for the coercivity relating to the magnetic flux density, the magnetic polarization or the magnetization respectively, where \\(H_{cJ} = H_{cM}\\)."^^qudt:LatexString ;
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qudt:symbol "H_{c,B}" ;
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rdfs:label "Coercivity"@en ;
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quantitykind:CoherenceLength
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dcterms:description "\"Coherence Length\" characterizes the distance in a superconductor over which the effect of a perturbation is appreciable."^^rdf:HTML ;
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qudt:plainTextDescription "\"Coherence Length\" characterizes the distance in a superconductor over which the effect of a perturbation is appreciable." ;
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dcterms:description "\"Cold Receptor Threshold\" is the threshold of cold-sensitive free nerve-ending."^^rdf:HTML ;
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qudt:plainTextDescription "\"Cold Receptor Threshold\" is the threshold of cold-sensitive free nerve-ending." ;
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rdfs:label "Cold Receptor Threshold"@en ;
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qudt:latexDefinition "\\(h = h_r + h_c + h_k\\), where \\(h_r\\) is the linear radiative heat transfer coefficient, \\(h_c\\) is the convective heat transfer coefficient, and \\(h_k\\) is the conductive heat transfer coefficient."^^qudt:LatexString ;
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rdfs:label "Combustion Chamber Temperature"@en ;
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rdfs:label "real part of complex frequency" ;
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dcterms:description "\"Complex Power\", under sinusoidal conditions, is the product of the phasor \\(U\\) representing the voltage between the terminals of a linear two-terminal element or two-terminal circuit and the complex conjugate of the phasor \\(I\\) representing the electric current in the element or circuit."^^qudt:LatexString ;
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qudt:latexSymbol "\\(\\underline{S}\\)"^^qudt:LatexString ;
rdfs:isDefinedBy ;
rdfs:label "Complex Power"@en ;
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quantitykind:Compressibility
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dcterms:description "Compressibility is a measure of the relative volume change of a fluid or solid as a response to a pressure (or mean stress) change."^^rdf:HTML ;
qudt:applicableUnit unit:M2-PER-N ;
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qudt:latexDefinition "\\(\\chi = -(\\frac{1}{V})\\frac{dV}{d\\rho}\\), where \\(V\\) is volume and \\(p\\) is pressure."^^qudt:LatexString ;
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qudt:plainTextDescription "Compressibility is a measure of the relative volume change of a fluid or solid as a response to a pressure (or mean stress) change." ;
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a qudt:QuantityKind ;
dcterms:description "The compressibility factor (\\(Z\\)) is a useful thermodynamic property for modifying the ideal gas law to account for the real gas behaviour. The closer a gas is to a phase change, the larger the deviations from ideal behavior. It is simply defined as the ratio of the molar volume of a gas to the molar volume of an ideal gas at the same temperature and pressure. Values for compressibility are calculated using equations of state (EOS), such as the virial equation and van der Waals equation. The compressibility factor for specific gases can be obtained, with out calculation, from compressibility charts. These charts are created by plotting Z as a function of pressure at constant temperature."^^qudt:LatexString ;
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qudt:applicableUnit unit:PPQ ;
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qudt:applicableUnit unit:PPTM ;
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qudt:qkdvNumerator qkdv:A0E0L3I0M0H0T0D0 ;
qudt:symbol "Z" ;
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rdfs:label "Compressibility Factor"@en ;
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quantitykind:Concentration
a qudt:QuantityKind ;
dcterms:description "In chemistry, concentration is defined as the abundance of a constituent divided by the total volume of a mixture. Furthermore, in chemistry, four types of mathematical description can be distinguished: mass concentration, molar concentration, number concentration, and volume concentration. The term concentration can be applied to any kind of chemical mixture, but most frequently it refers to solutes in solutions."^^rdf:HTML ;
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qudt:plainTextDescription "In chemistry, concentration is defined as the abundance of a constituent divided by the total volume of a mixture. Furthermore, in chemistry, four types of mathematical description can be distinguished: mass concentration, molar concentration, number concentration, and volume concentration. The term concentration can be applied to any kind of chemical mixture, but most frequently it refers to solutes in solutions." ;
rdfs:isDefinedBy ;
rdfs:label "Concentration"@en ;
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quantitykind:Conductance
a qudt:QuantityKind ;
dcterms:description "\\(\\textit{Conductance}\\), for a resistive two-terminal element or two-terminal circuit with terminals A and B, quotient of the electric current i in the element or circuit by the voltage \\(u_{AB}\\) between the terminals: \\(G = \\frac{1}{R}\\), where the electric current is taken as positive if its direction is from A to B and negative in the opposite case. The conductance of an element or circuit is the inverse of its resistance."^^qudt:LatexString ;
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qudt:applicableUnit unit:KiloS ;
qudt:applicableUnit unit:MHO ;
qudt:applicableUnit unit:MegaS ;
qudt:applicableUnit unit:MicroMHO ;
qudt:applicableUnit unit:MicroS ;
qudt:applicableUnit unit:MilliS ;
qudt:applicableUnit unit:NanoS ;
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qudt:latexDefinition """\\(G = Re\\underline{Y}\\), where \\(\\underline{Y}\\) is admittance.
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\\(G = \\frac{1}{R}\\), where \\(R\\) is resistance."""^^qudt:LatexString ;
qudt:symbol "G" ;
rdfs:isDefinedBy ;
rdfs:label "Conductance"@en ;
rdfs:seeAlso quantitykind:Admittance ;
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quantitykind:ConductionSpeed
a qudt:QuantityKind ;
dcterms:description "\"Conduction Speed\" is the speed of impulses in nerve fibers."^^rdf:HTML ;
qudt:applicableUnit unit:GigaHZ-M ;
qudt:applicableUnit unit:KiloHZ-M ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T-1D0 ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ;
qudt:plainTextDescription "\"Conduction Speed\" is the speed of impulses in nerve fibers." ;
qudt:symbol "c" ;
rdfs:isDefinedBy ;
rdfs:label "Conduction Speed"@en ;
skos:broader quantitykind:Speed ;
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quantitykind:ConductiveHeatTransferRate
a qudt:QuantityKind ;
dcterms:description "\"Conductive Heat Transfer Rate\" is proportional to temperature gradient and area of contact."^^rdf:HTML ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-3D0 ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ;
qudt:latexSymbol "\\(\\Phi_k\\)"^^qudt:LatexString ;
qudt:plainTextDescription "\"Conductive Heat Transfer Rate\" is proportional to temperature gradient and area of contact." ;
rdfs:isDefinedBy ;
rdfs:label "Conductive Heat Transfer Rate"@en ;
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quantitykind:Conductivity
a qudt:QuantityKind ;
dcterms:description "\"Conductivity\" is a scalar or tensor quantity the product of which by the electric field strength in a medium is equal to the electric current density. For an isotropic medium the conductivity is a scalar quantity; for an anisotropic medium it is a tensor quantity."^^rdf:HTML ;
qudt:applicableUnit unit:DeciS-PER-M ;
qudt:applicableUnit unit:KiloS-PER-M ;
qudt:applicableUnit unit:MegaS-PER-M ;
qudt:applicableUnit unit:MicroS-PER-CentiM ;
qudt:applicableUnit unit:MicroS-PER-M ;
qudt:applicableUnit unit:MilliS-PER-CentiM ;
qudt:applicableUnit unit:MilliS-PER-M ;
qudt:applicableUnit unit:NanoS-PER-CentiM ;
qudt:applicableUnit unit:NanoS-PER-M ;
qudt:applicableUnit unit:PicoS-PER-M ;
qudt:applicableUnit unit:S-PER-CentiM ;
qudt:applicableUnit unit:S-PER-M ;
qudt:hasDimensionVector qkdv:A0E2L-3I0M-1H0T3D0 ;
qudt:iec61360Code "0112/2///62720#UAD025" ;
qudt:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=121-12-03"^^xsd:anyURI ;
qudt:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\mathbf{J} = \\sigma \\mathbf{E}\\), where \\(\\mathbf{J}\\) is electric current density, and \\(\\mathbf{E}\\) is electric field strength."^^qudt:LatexString ;
qudt:latexSymbol "\\(\\gamma\\)"^^qudt:LatexString ;
qudt:latexSymbol "\\(\\sigma\\)"^^qudt:LatexString ;
qudt:plainTextDescription "\"Conductivity\" is a scalar or tensor quantity the product of which by the electric field strength in a medium is equal to the electric current density. For an isotropic medium the conductivity is a scalar quantity; for an anisotropic medium it is a tensor quantity." ;
rdfs:isDefinedBy ;
rdfs:label "Conductivity"@en ;
rdfs:seeAlso quantitykind:ElectricCurrentDensity ;
rdfs:seeAlso quantitykind:ElectricFieldStrength ;
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quantitykind:Constringence
a qudt:QuantityKind ;
dcterms:description "In optics and lens design, constringence of a transparent material, also known as the Abbe number or the V-number, is an approximate measure of the material's dispersion (change of refractive index versus wavelength), with high values of V indicating low dispersion."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "https://en.wikipedia.org/wiki/Abbe_number"^^xsd:anyURI ;
qudt:symbol "V" ;
rdfs:isDefinedBy ;
rdfs:label "Constringence"@en ;
skos:altLabel "Abbe Number"@en ;
skos:altLabel "V-number"@en ;
skos:broader quantitykind:DimensionlessRatio ;
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quantitykind:ConvectiveHeatTransfer
a qudt:QuantityKind ;
dcterms:description "\"Convective Heat Transfer\" is convective heat transfer coefficient multiplied by temperature difference and exchange area. "^^rdf:HTML ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-3D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Heat_transfer#Convection"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ;
qudt:latexSymbol "\\(\\Phi_c\\)"^^qudt:LatexString ;
qudt:plainTextDescription "\"Convective Heat Transfer\" is convective heat transfer coefficient multiplied by temperature difference and exchange area. " ;
rdfs:isDefinedBy ;
rdfs:label "Convective Heat Transfer"@en ;
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quantitykind:CorrelatedColorTemperature
a qudt:QuantityKind ;
dcterms:description "Correlated color temperature (CCT) is a measure of light source color appearance defined by the proximity of the light source's chromaticity coordinates to the blackbody locus, as a single number rather than the two required to specify a chromaticity."^^rdf:HTML ;
qudt:applicableUnit unit:K ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H1T0D0 ;
qudt:informativeReference "https://www.lrc.rpi.edu/programs/nlpip/lightinganswers/lightsources/whatiscct.asp#:~:text=Correlated%20color%20temperature%20(CCT)%20is,required%20to%20specify%20a%20chromaticity."^^xsd:anyURI ;
qudt:plainTextDescription "Correlated color temperature (CCT) is a measure of light source color appearance defined by the proximity of the light source's chromaticity coordinates to the blackbody locus, as a single number rather than the two required to specify a chromaticity." ;
rdfs:isDefinedBy ;
rdfs:label "Correlated Color Temperature"@en-us ;
rdfs:label "Correlated Colour Temperature"@en ;
rdfs:seeAlso quantitykind:Duv ;
skos:broader quantitykind:ThermodynamicTemperature ;
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quantitykind:CostPerArea
a qudt:QuantityKind ;
qudt:applicableUnit unit:EUR-PER-M2 ;
qudt:hasDimensionVector qkdv:A0E0L-2I0M0H0T0D0 ;
qudt:informativeReference "https://www.designingbuildings.co.uk/wiki/Cost_per_m2_of_gross_internal_floor_area"^^xsd:anyURI ;
qudt:plainTextDescription "In the construction industry, cost per area is the unit rate which, when multiplied by the gross internal floor area (GIFA), gives the total building works estimate (i.e.works cost estimate less main contractor’s preliminaries and main contractor’s overheads and profit)." ;
rdfs:isDefinedBy ;
rdfs:label "Kosten pro Fläche"@de ;
rdfs:label "cost per area"@en ;
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quantitykind:CostPerUnitEnergy
a qudt:QuantityKind ;
qudt:applicableUnit unit:EUR-PER-KiloW-HR ;
qudt:applicableUnit unit:EUR-PER-W-HR ;
qudt:applicableUnit unit:EUR-PER-W-SEC ;
qudt:hasDimensionVector qkdv:A0E0L-2I0M-1H0T2D0 ;
qudt:informativeReference "https://en.wikipedia.org/wiki/Cost_of_electricity_by_source"^^xsd:anyURI ;
qudt:plainTextDescription "The monetary cost of a unit of energy" ;
rdfs:isDefinedBy ;
rdfs:label "Energiekosten"@de ;
rdfs:label "energy cost"@en ;
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quantitykind:CostPerUnitPower
a qudt:QuantityKind ;
qudt:applicableUnit unit:EUR-PER-KiloW ;
qudt:applicableUnit unit:EUR-PER-W ;
qudt:hasDimensionVector qkdv:A0E0L-2I0M-1H0T3D0 ;
qudt:informativeReference "https://en.wikipedia.org/wiki/Photovoltaics"^^xsd:anyURI ;
qudt:plainTextDescription "In photovoltaics, cost per power of electricity produced measures the cost of installing the hardware relative to the power produced." ;
rdfs:isDefinedBy ;
rdfs:label "Anschaffungskosten pro Watt"@de ;
rdfs:label "cost per power"@en ;
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quantitykind:Count
a qudt:QuantityKind ;
dcterms:description "\"Count\" is the value of a count of items."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:plainTextDescription "\"Count\" is the value of a count of items." ;
rdfs:isDefinedBy ;
rdfs:label "Count"@en ;
skos:broader quantitykind:Dimensionless ;
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quantitykind:CouplingFactor
a qudt:QuantityKind ;
dcterms:description "\"Coupling Factor\" is the ratio of an electromagnetic quantity, usually voltage or current, appearing at a specified location of a given circuit to the corresponding quantity at a specified location in the circuit from which energy is transferred by coupling."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=161-03-18"^^xsd:anyURI ;
qudt:informativeReference "http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=31891"^^xsd:anyURI ;
qudt:latexDefinition "For inductive coupling between two inductive elements, \\(k = \\frac{\\left | L_{mn} \\right |}{\\sqrt{L_m L_n}}\\), where \\(L_m\\) and \\(L_n\\) are their self inductances, and \\(L_{mn}\\) is their mutual inductance."^^qudt:LatexString ;
qudt:plainTextDescription "\"Coupling Factor\" is the ratio of an electromagnetic quantity, usually voltage or current, appearing at a specified location of a given circuit to the corresponding quantity at a specified location in the circuit from which energy is transferred by coupling." ;
qudt:symbol "k" ;
rdfs:isDefinedBy ;
rdfs:label "Constantă de cuplaj"@ro ;
rdfs:label "constante de acoplamiento"@es ;
rdfs:label "constante de couplage"@fr ;
rdfs:label "coupling factor"@en ;
rdfs:label "fattore di accoppiamento"@it ;
rdfs:label "stała sprzężenia"@pl ;
rdfs:label "Çiftlenim sabiti"@tr ;
rdfs:label "Константа взаимодействия"@ru ;
rdfs:label "結合定数"@ja ;
rdfs:label "耦合常數"@zh ;
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quantitykind:CrossSection
a qudt:QuantityKind ;
dcterms:description "\"Cross-section\" is used to express the likelihood of interaction between particles. For a specified target particle and for a specified reaction or process produced by incident charged or uncharged particles of specified type and energy, it is the mean number of such reactions or processes divided by the incident-particle fluence."^^rdf:HTML ;
qudt:applicableUnit unit:AC ;
qudt:applicableUnit unit:ARE ;
qudt:applicableUnit unit:BARN ;
qudt:applicableUnit unit:CentiM2 ;
qudt:applicableUnit unit:DecaARE ;
qudt:applicableUnit unit:DeciM2 ;
qudt:applicableUnit unit:FT2 ;
qudt:applicableUnit unit:HA ;
qudt:applicableUnit unit:IN2 ;
qudt:applicableUnit unit:KiloMIL_Circ ;
qudt:applicableUnit unit:M2 ;
qudt:applicableUnit unit:MI2 ;
qudt:applicableUnit unit:MIL_Circ ;
qudt:applicableUnit unit:MI_US2 ;
qudt:applicableUnit unit:MicroM2 ;
qudt:applicableUnit unit:MilliM2 ;
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qudt:applicableUnit unit:PlanckArea ;
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qudt:iec61360Code "0112/2///62720#UAD026" ;
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qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:plainTextDescription "\"Cross-section\" is used to express the likelihood of interaction between particles. For a specified target particle and for a specified reaction or process produced by incident charged or uncharged particles of specified type and energy, it is the mean number of such reactions or processes divided by the incident-particle fluence." ;
qudt:symbol "σ" ;
rdfs:isDefinedBy ;
rdfs:label "Cross-section"@en ;
skos:broader quantitykind:Area ;
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quantitykind:CrossSectionalArea
a qudt:QuantityKind ;
qudt:applicableUnit unit:AC ;
qudt:applicableUnit unit:ARE ;
qudt:applicableUnit unit:BARN ;
qudt:applicableUnit unit:CentiM2 ;
qudt:applicableUnit unit:DecaARE ;
qudt:applicableUnit unit:DeciM2 ;
qudt:applicableUnit unit:FT2 ;
qudt:applicableUnit unit:HA ;
qudt:applicableUnit unit:IN2 ;
qudt:applicableUnit unit:KiloMIL_Circ ;
qudt:applicableUnit unit:M2 ;
qudt:applicableUnit unit:MI2 ;
qudt:applicableUnit unit:MIL_Circ ;
qudt:applicableUnit unit:MI_US2 ;
qudt:applicableUnit unit:MicroM2 ;
qudt:applicableUnit unit:MilliM2 ;
qudt:applicableUnit unit:NanoM2 ;
qudt:applicableUnit unit:PlanckArea ;
qudt:applicableUnit unit:YD2 ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T0D0 ;
qudt:symbol "A" ;
rdfs:isDefinedBy ;
rdfs:label "Cross-sectional Area"@en ;
skos:broader quantitykind:Area ;
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quantitykind:CubicElectricDipoleMomentPerSquareEnergy
a qudt:QuantityKind ;
dcterms:isReplacedBy quantitykind:ElectricDipoleMoment_CubicPerEnergy_Squared ;
qudt:deprecated true ;
qudt:hasDimensionVector qkdv:A0E3L-3I0M-2H0T7D0 ;
rdfs:isDefinedBy ;
rdfs:label "Cubic Electric Dipole Moment per Square Energy"@en ;
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quantitykind:CubicExpansionCoefficient
a qudt:QuantityKind ;
qudt:applicableUnit unit:PER-K ;
qudt:applicableUnit unit:PPM-PER-K ;
qudt:applicableUnit unit:PPTM-PER-K ;
qudt:expression "\\(cubic-exp-coef\\)"^^qudt:LatexString ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H-1T0D0 ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31890"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\alpha_V = \\frac{1}{V} \\; \\frac{dV}{dT}\\), where \\(V\\) is \\(volume\\) and \\(T\\) is thermodynamic temperature."^^qudt:LatexString ;
qudt:latexSymbol "\\(\\alpha_v\\)"^^qudt:LatexString ;
qudt:qkdvDenominator qkdv:A0E0L3I0M0H1T0D0 ;
qudt:qkdvNumerator qkdv:A0E0L3I0M0H0T0D0 ;
rdfs:isDefinedBy ;
rdfs:label "Hullámszám"@hu ;
rdfs:label "Volumenausdehnungskoeffizient"@de ;
rdfs:label "coefficient de dilatation volumique"@fr ;
rdfs:label "coefficiente di dilatazione volumica"@it ;
rdfs:label "coeficiente de dilatación cúbica"@es ;
rdfs:label "coeficiente de dilatação volúmica"@pt ;
rdfs:label "cubic expansion coefficient"@en ;
rdfs:label "kübik genleşme katsayısı"@tr ;
rdfs:label "współczynnik rozszerzalności objętościowej"@pl ;
rdfs:label "Κυματαριθμός"@el ;
rdfs:label "Вълново число"@bg ;
rdfs:label "Температурный коэффициент"@ru ;
rdfs:label "מספר גל"@he ;
rdfs:label "ضریب انبساط گرمایی"@fa ;
rdfs:label "معامل التمدد الحجمى"@ar ;
rdfs:label "体膨胀系数"@zh ;
rdfs:label "線膨張係数"@ja ;
skos:broader quantitykind:ExpansionRatio ;
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quantitykind:CurieTemperature
a qudt:QuantityKind ;
dcterms:description "\"Curie Temperature\" is the critical thermodynamic temperature of a ferromagnet."^^rdf:HTML ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H1T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Curie_temperature"^^xsd:anyURI ;
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qudt:plainTextDescription "\"Curie Temperature\" is the critical thermodynamic temperature of a ferromagnet." ;
qudt:symbol "T_C" ;
rdfs:isDefinedBy ;
rdfs:label "Curie sıcaklığı"@tr ;
rdfs:label "Curie temperature"@en ;
rdfs:label "Curie-Temperatur"@de ;
rdfs:label "Curieova teplota"@cs ;
rdfs:label "Punct Curie"@ro ;
rdfs:label "Suhu Curie"@ms ;
rdfs:label "punto di Curie"@it ;
rdfs:label "temperatura Curie"@pl ;
rdfs:label "temperatura de Curie"@es ;
rdfs:label "temperatura de Curie"@pt ;
rdfs:label "température de Curie"@fr ;
rdfs:label "Точка Кюри"@ru ;
rdfs:label "درجة حرارة كوري"@ar ;
rdfs:label "نقطه کوری"@fa ;
rdfs:label "क्यूरी ताप"@hi ;
rdfs:label "キュリー温度"@ja ;
rdfs:label "居里点"@zh ;
skos:closeMatch quantitykind:NeelTemperature ;
skos:closeMatch quantitykind:SuperconductionTransitionTemperature ;
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quantitykind:CurrencyPerFlight
a qudt:QuantityKind ;
qudt:applicableUnit unit:MegaDOLLAR_US-PER-FLIGHT ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:qkdvDenominator qkdv:A0E0L0I0M0H0T0D1 ;
qudt:qkdvNumerator qkdv:A0E0L0I0M0H0T0D1 ;
rdfs:isDefinedBy ;
rdfs:label "Currency Per Flight"@en ;
skos:broader quantitykind:DimensionlessRatio ;
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quantitykind:CurrentLinkage
a qudt:QuantityKind ;
dcterms:description "\"Current Linkage\" is the net electric current through a surface delimited by a closed loop."^^rdf:HTML ;
qudt:applicableUnit unit:A ;
qudt:expression "\\(current-linkage\\)"^^qudt:LatexString ;
qudt:hasDimensionVector qkdv:A0E1L0I0M0H0T0D0 ;
qudt:informativeReference "http://www.electropedia.org/iev/iev.nsf/display?openform&ievref=121-11-60"^^xsd:anyURI ;
qudt:latexSymbol "\\(\\Theta\\)"^^qudt:LatexString ;
qudt:plainTextDescription "\"Current Linkage\" is the net electric current through a surface delimited by a closed loop." ;
rdfs:isDefinedBy ;
rdfs:label "Current Linkage"@en ;
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quantitykind:CurrentOfTheAmountOfSubtance
a qudt:QuantityKind ;
dcterms:description "Quotient Stoffmenge dividiert durch die zugehörige Zeit"@de ;
dcterms:description "ratio of the amount of substance divided by the related time"@en ;
qudt:hasDimensionVector qkdv:A1E0L0I0M0H0T-1D0 ;
qudt:symbol "0173-1#Z4-BAJ384#002" ;
rdfs:isDefinedBy ;
rdfs:label "current of the amount of subtance"@en-US ;
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quantitykind:Curvature
a qudt:QuantityKind ;
dcterms:description "The canonical example of extrinsic curvature is that of a circle, which has curvature equal to the inverse of its radius everywhere. Smaller circles bend more sharply, and hence have higher curvature. The curvature of a smooth curve is defined as the curvature of its osculating circle at each point. The osculating circle of a sufficiently smooth plane curve at a given point on the curve is the circle whose center lies on the inner normal line and whose curvature is the same as that of the given curve at that point. This circle is tangent to the curve at the given point. The magnitude of curvature at points on physical curves can be measured in \\(diopters\\) (also spelled \\(dioptre\\)) — this is the convention in optics."^^qudt:LatexString ;
qudt:applicableUnit unit:DIOPTER ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Curvature"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L-1I0M0H0T0D0 ;
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qudt:plainTextDescription """The canonical example of extrinsic curvature is that of a circle, which has curvature equal to the inverse of its radius everywhere. Smaller circles bend more sharply, and hence have higher curvature. The curvature of a smooth curve is defined as the curvature of its osculating circle at each point. The osculating circle of a sufficiently smooth plane curve at a given point on the curve is the circle whose center lies on the inner normal line and whose curvature is the same as that of the given curve at that point. This circle is tangent to the curve at the given point.
That is, given a point P on a smooth curve C, the curvature of C at P is defined to be 1/R where R is the radius of the osculating circle of C at P. The magnitude of curvature at points on physical curves can be measured in diopters (also spelled dioptre) — this is the convention in optics. [Wikipedia],""" ;
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dcterms:description "In mathematics \"Curvature\" is the amount by which a geometric object deviates from being flat, or straight in the case of a line, but this is defined in different ways depending on the context."^^rdf:HTML ;
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qudt:latexDefinition "\\(\\kappa = \\frac{1}{\\rho}\\), where \\(\\rho\\) is the radius of the curvature."^^qudt:LatexString ;
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qudt:plainTextDescription "In mathematics \"Curvature\" is the amount by which a geometric object deviates from being flat, or straight in the case of a line, but this is defined in different ways depending on the context." ;
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dcterms:description "Durchlassstrom-Kennwert als Bemessungsgröße für Sicherungen und Schalter, welcher abgeleitet ist aus dem sogenannten Joule-Integral"@de ;
dcterms:description "cut-off current parameter as rating for fuses and switches, derived from the so-called Joule integral"@en ;
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rdfs:label "I²t-value"@en-US ;
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dcterms:description "The \"Cyclotron Angular Frequency\" describes angular momentum vector precession about the external field axis with an angular frequency."^^rdf:HTML ;
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qudt:latexDefinition "\\(\\omega_c = \\frac{\\left | q \\right |}{m}B\\), where \\(q\\) is the electric charge, \\(m\\) is its mass, and \\(B\\) is the magnetic flux density."^^qudt:LatexString ;
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qudt:plainTextDescription "The \"Cyclotron Angular Frequency\" describes angular momentum vector precession about the external field axis with an angular frequency." ;
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dcterms:description "The change in translational velocity including all losses for a propulsive system or module. Delta-V losses include, but are not limited to, gravity losses and steering losses."^^rdf:HTML ;
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dcterms:description "Mass of a system without the propellants, pressurants, reserve or residual fluids, personnel and personnel provisions, and cargo."^^rdf:HTML ;
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qudt:plainTextDescription "The frequency derived from the period of time required to transmit one bit. This represents the amount of data transferred per second by a communications channel or a computing or storage device. Data rate is measured in units of bits per second (written \"b/s\" or \"bps\"), bytes per second (Bps), or baud. When applied to data rate, the multiplier prefixes \"kilo-\", \"mega-\", \"giga-\", etc. (and their abbreviations, \"k\", \"M\", \"G\", etc.) always denote powers of 1000. For example, 64 kbps is 64,000 bits per second. This contrasts with units of storage which use different prefixes to denote multiplication by powers of 1024, for example 1 kibibit = 1024 bits." ;
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dcterms:description "The \"Degree of Dissociation\" is the fraction of original solute molecules that have dissociated."^^rdf:HTML ;
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qudt:applicableUnit unit:PT ;
qudt:applicableUnit unit:PicoM ;
qudt:applicableUnit unit:PlanckLength ;
qudt:applicableUnit unit:ROD ;
qudt:applicableUnit unit:YD ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Displacement"^^xsd:anyURI ;
qudt:latexDefinition "\\(u = R - R_0\\), where \\(R\\) is the particle position vector and \\(R_0\\) is the equilibrium position vector of a particle."^^qudt:LatexString ;
qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ;
qudt:plainTextDescription "\"Displacement Vector of Ion\" is the ." ;
qudt:symbol "u" ;
rdfs:isDefinedBy ;
rdfs:label "Displacement Vector of Ion"@en ;
skos:broader quantitykind:Length ;
.
quantitykind:Dissipance
a qudt:QuantityKind ;
dcterms:description "Dissipance, or dissipation factor for sound power, is the ratio of dissipated sound power to incident sound power. The dissipation factor (DF) is a measure of loss-rate of energy of a mode of oscillation (mechanical, electrical, or electromechanical) in a dissipative system. It is the reciprocal of quality factor, which represents the quality of oscillation."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Dissipation_factor"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\delta = \\frac{P_d}{P_i}\\), where \\(P_d\\) is the dissipated sound power, and \\(P_i\\) is the incident sound power."^^qudt:LatexString ;
qudt:latexSymbol "\\(\\delta\\)"^^qudt:LatexString ;
qudt:plainTextDescription "Dissipance, or dissipation factor for sound power, is the ratio of dissipated sound power to incident sound power. The dissipation factor (DF) is a measure of loss-rate of energy of a mode of oscillation (mechanical, electrical, or electromechanical) in a dissipative system. It is the reciprocal of quality factor, which represents the quality of oscillation." ;
vaem:todo "belongs to SOQ-ISO" ;
rdfs:isDefinedBy ;
rdfs:label "Dissipance"@en ;
.
quantitykind:Distance
a qudt:QuantityKind ;
dcterms:description "\"Distance\" is a numerical description of how far apart objects are. "^^rdf:HTML ;
qudt:applicableUnit unit:MI ;
qudt:applicableUnit unit:MicroIN ;
qudt:applicableUnit unit:PT_BIG ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Distance"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=43012"^^xsd:anyURI ;
qudt:plainTextDescription "\"Distance\" is a numerical description of how far apart objects are. " ;
qudt:symbol "d" ;
rdfs:isDefinedBy ;
rdfs:label "Entfernung"@de ;
rdfs:label "Jarak"@ms ;
rdfs:label "Vzdálenost"@cs ;
rdfs:label "distance"@en ;
rdfs:label "distance"@fr ;
rdfs:label "distancia"@es ;
rdfs:label "distanza"@it ;
rdfs:label "distância"@pt ;
rdfs:label "uzaklık"@tr ;
rdfs:label "مسافت"@fa ;
rdfs:label "距离"@zh ;
skos:broader quantitykind:Length ;
.
quantitykind:DistanceTraveledDuringBurn
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T0D0 ;
qudt:symbol "s" ;
rdfs:isDefinedBy ;
rdfs:label "Distance Traveled During a Burn"@en ;
.
quantitykind:DonorDensity
a qudt:QuantityKind ;
dcterms:description "\"Donor Density\" is the number per volume of donor levels."^^rdf:HTML ;
qudt:applicableUnit unit:NUM-PER-L ;
qudt:applicableUnit unit:NUM-PER-M3 ;
qudt:applicableUnit unit:NUM-PER-MicroL ;
qudt:applicableUnit unit:NUM-PER-MilliM3 ;
qudt:applicableUnit unit:NUM-PER-NanoL ;
qudt:applicableUnit unit:NUM-PER-PicoL ;
qudt:applicableUnit unit:PER-M3 ;
qudt:hasDimensionVector qkdv:A0E0L-3I0M0H0T0D0 ;
qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ;
qudt:plainTextDescription "\"Donor Density\" is the number per volume of donor levels." ;
qudt:symbol "n_d" ;
rdfs:isDefinedBy ;
rdfs:label "Donor Density"@en ;
skos:broader quantitykind:NumberDensity ;
.
quantitykind:DonorIonizationEnergy
a qudt:QuantityKind ;
dcterms:description "\"Donor Ionization Energy\" is the ionization energy of a donor."^^rdf:HTML ;
qudt:applicableUnit unit:AttoJ ;
qudt:applicableUnit unit:BTU_IT ;
qudt:applicableUnit unit:BTU_TH ;
qudt:applicableUnit unit:CAL_IT ;
qudt:applicableUnit unit:CAL_TH ;
qudt:applicableUnit unit:ERG ;
qudt:applicableUnit unit:EV ;
qudt:applicableUnit unit:E_h ;
qudt:applicableUnit unit:ExaJ ;
qudt:applicableUnit unit:FT-LB_F ;
qudt:applicableUnit unit:FT-PDL ;
qudt:applicableUnit unit:FemtoJ ;
qudt:applicableUnit unit:GigaEV ;
qudt:applicableUnit unit:GigaJ ;
qudt:applicableUnit unit:GigaW-HR ;
qudt:applicableUnit unit:J ;
qudt:applicableUnit unit:KiloBTU_IT ;
qudt:applicableUnit unit:KiloBTU_TH ;
qudt:applicableUnit unit:KiloCAL ;
qudt:applicableUnit unit:KiloEV ;
qudt:applicableUnit unit:KiloJ ;
qudt:applicableUnit unit:KiloV-A-HR ;
qudt:applicableUnit unit:KiloV-A_Reactive-HR ;
qudt:applicableUnit unit:KiloW-HR ;
qudt:applicableUnit unit:MegaEV ;
qudt:applicableUnit unit:MegaJ ;
qudt:applicableUnit unit:MegaTOE ;
qudt:applicableUnit unit:MegaV-A-HR ;
qudt:applicableUnit unit:MegaV-A_Reactive-HR ;
qudt:applicableUnit unit:MegaW-HR ;
qudt:applicableUnit unit:MicroJ ;
qudt:applicableUnit unit:MilliJ ;
qudt:applicableUnit unit:PetaJ ;
qudt:applicableUnit unit:PlanckEnergy ;
qudt:applicableUnit unit:QUAD ;
qudt:applicableUnit unit:THM_EEC ;
qudt:applicableUnit unit:THM_US ;
qudt:applicableUnit unit:TOE ;
qudt:applicableUnit unit:TeraJ ;
qudt:applicableUnit unit:TeraW-HR ;
qudt:applicableUnit unit:TonEnergy ;
qudt:applicableUnit unit:V-A-HR ;
qudt:applicableUnit unit:V-A_Reactive-HR ;
qudt:applicableUnit unit:W-HR ;
qudt:applicableUnit unit:W-SEC ;
qudt:hasDimensionVector qkdv:A0E0L2I0M1H0T-2D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Ionization_energy"^^xsd:anyURI ;
qudt:normativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31897"^^xsd:anyURI ;
qudt:plainTextDescription "\"Donor Ionization Energy\" is the ionization energy of a donor." ;
qudt:symbol "E_d" ;
rdfs:isDefinedBy ;
rdfs:label "Donor Ionization Energy"@en ;
skos:broader quantitykind:IonizationEnergy ;
skos:closeMatch quantitykind:AcceptorIonizationEnergy ;
.
quantitykind:DoseEquivalent
a qudt:QuantityKind ;
dcterms:description "\"Dose Equivalent} (former), or \\textit{Equivalent Absorbed Radiation Dose}, usually shortened to \\textit{Equivalent Dose\", is a computed average measure of the radiation absorbed by a fixed mass of biological tissue, that attempts to account for the different biological damage potential of different types of ionizing radiation. The equivalent dose to a tissue is found by multiplying the absorbed dose, in gray, by a dimensionless \"quality factor\" \\(Q\\), dependent upon radiation type, and by another dimensionless factor \\(N\\), dependent on all other pertinent factors. N depends upon the part of the body irradiated, the time and volume over which the dose was spread, even the species of the subject."^^qudt:LatexString ;
qudt:applicableUnit unit:MicroSV ;
qudt:applicableUnit unit:MilliR_man ;
qudt:applicableUnit unit:MilliSV ;
qudt:applicableUnit unit:REM ;
qudt:applicableUnit unit:R_man ;
qudt:applicableUnit unit:SV ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Equivalent_dose"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T-2D0 ;
qudt:iec61360Code "0112/2///62720#UAD033" ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Equivalent_dose"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:latexDefinition "At the point of interest in tissue, \\(H = DQ\\), where \\(D\\) is the absorbed dose and \\(Q\\) is the quality factor at that point."^^qudt:LatexString ;
qudt:symbol "H" ;
rdfs:isDefinedBy ;
rdfs:label "Dose Equivalent"@en ;
skos:broader quantitykind:SpecificEnergy ;
.
quantitykind:DoseEquivalentQualityFactor
a qudt:QuantityKind ;
dcterms:description "\"Dose Equivalent Quality Factor\" is a factor in the caculation and measurement of dose equivalent, by which the absorbed dose is to be weighted in order to account for different biological effectiveness of radiations, for radiation protection purposes."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Equivalent_dose"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31895"^^xsd:anyURI ;
qudt:plainTextDescription "\"Dose Equivalent Quality Factor\" is a factor in the caculation and measurement of dose equivalent, by which the absorbed dose is to be weighted in order to account for different biological effectiveness of radiations, for radiation protection purposes." ;
qudt:symbol "Q" ;
rdfs:isDefinedBy ;
rdfs:label "Dose Equivalent Quality Factor"@en ;
.
quantitykind:DoseEquivalentRate
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L2I0M0H0T-3D0 ;
qudt:iec61360Code "0112/2///62720#UAD034" ;
rdfs:isDefinedBy ;
rdfs:label "dose equivalent rate" ;
.
quantitykind:DotsPerInch
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L-1I0M0H0T0D0 ;
qudt:iec61360Code "0112/2///62720#UAD255" ;
rdfs:isDefinedBy ;
rdfs:label "dots per inch" ;
.
quantitykind:DragCoefficient
a qudt:QuantityKind ;
dcterms:description "In fluid dynamics, the drag coefficient is a dimensionless quantity that is used to quantify the drag or resistance of an object in a fluid environment such as air or water."^^rdf:HTML ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:plainTextDescription "In fluid dynamics, the drag coefficient is a dimensionless quantity that is used to quantify the drag or resistance of an object in a fluid environment such as air or water." ;
qudt:qkdvDenominator qkdv:A0E0L1I0M1H0T-2D0 ;
qudt:qkdvNumerator qkdv:A0E0L1I0M1H0T-2D0 ;
qudt:symbol "C_D" ;
rdfs:isDefinedBy ;
rdfs:label "Drag Coefficient"@en ;
.
quantitykind:DragForce
a qudt:QuantityKind ;
dcterms:description """In fluid dynamics, drag refers to forces which act on a solid object in the direction of the relative fluid flow velocity. Unlike other resistive forces such as dry friction, which is nearly independent of velocity, drag forces depend on velocity.
Drag forces always decrease fluid velocity relative to the solid object in the fluid's path.""" ;
qudt:hasDimensionVector qkdv:A0E0L1I0M1H0T-2D0 ;
qudt:plainTextDescription """In fluid dynamics, drag refers to forces which act on a solid object in the direction of the relative fluid flow velocity. Unlike other resistive forces such as dry friction, which is nearly independent of velocity, drag forces depend on velocity.
Drag forces always decrease fluid velocity relative to the solid object in the fluid's path.""" ;
qudt:symbol "D or F_D" ;
rdfs:isDefinedBy ;
rdfs:label "Drag Force"@en ;
.
quantitykind:DryVolume
a qudt:QuantityKind ;
dcterms:description "Dry measures are units of volume used to measure bulk commodities which are not gas or liquid. They are typically used in agriculture, agronomy, and commodity markets to measure grain, dried beans, and dried and fresh fruit; formerly also salt pork and fish. They are also used in fishing for clams, crabs, etc. and formerly for many other substances (for example coal, cement, lime) which were typically shipped and delivered in a standardized container such as a barrel. In the original metric system, the unit of dry volume was the stere, but this is not part of the modern metric system; the liter and the cubic meter (\\(m^{3}\\)) are now used. However, the stere is still widely used for firewood."^^qudt:LatexString ;
qudt:applicableUnit unit:BBL_US_DRY ;
qudt:applicableUnit unit:BU_UK ;
qudt:applicableUnit unit:BU_US ;
qudt:applicableUnit unit:CORD ;
qudt:applicableUnit unit:GAL_US_DRY ;
qudt:applicableUnit unit:PINT_US_DRY ;
qudt:applicableUnit unit:PK_US_DRY ;
qudt:applicableUnit unit:QT_US_DRY ;
qudt:hasDimensionVector qkdv:A0E0L3I0M0H0T0D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Dry_measure"^^xsd:anyURI ;
rdfs:isDefinedBy ;
rdfs:label "Dry Volume"@en ;
skos:broader quantitykind:Volume ;
.
quantitykind:Duv
a qudt:QuantityKind ;
dcterms:description "Duv is a metric that is short for Delta u,v (not to be confused with Delta u',v') and describes the distance of a light color point from the black body curve."^^rdf:HTML ;
qudt:applicableUnit unit:UNITLESS ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "https://www.waveformlighting.com/tech/calculate-duv-from-cie-1931-xy-coordinates"^^xsd:anyURI ;
qudt:informativeReference "https://www1.eere.energy.gov/buildings/publications/pdfs/ssl/led-color-characteristics-factsheet.pdf"^^xsd:anyURI ;
qudt:plainTextDescription "Duv is a metric that is short for Delta u,v (not to be confused with Delta u',v') and describes the distance of a light color point from the black body curve." ;
rdfs:isDefinedBy ;
rdfs:label "Delta u,v"@en ;
rdfs:seeAlso quantitykind:CorrelatedColorTemperature ;
.
quantitykind:DynamicFriction
a qudt:QuantityKind ;
dcterms:description "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)."^^rdf:HTML ;
qudt:applicableUnit unit:CentiN ;
qudt:applicableUnit unit:DYN ;
qudt:applicableUnit unit:DeciN ;
qudt:applicableUnit unit:GM_F ;
qudt:applicableUnit unit:KIP_F ;
qudt:applicableUnit unit:KiloGM_F ;
qudt:applicableUnit unit:KiloLB_F ;
qudt:applicableUnit unit:KiloN ;
qudt:applicableUnit unit:KiloP ;
qudt:applicableUnit unit:KiloPOND ;
qudt:applicableUnit unit:LB_F ;
qudt:applicableUnit unit:MegaLB_F ;
qudt:applicableUnit unit:MegaN ;
qudt:applicableUnit unit:MicroN ;
qudt:applicableUnit unit:MilliN ;
qudt:applicableUnit unit:N ;
qudt:applicableUnit unit:OZ_F ;
qudt:applicableUnit unit:PDL ;
qudt:applicableUnit unit:PlanckForce ;
qudt:applicableUnit unit:TON_F_US ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Friction"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L1I0M1H0T-2D0 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Friction"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ;
qudt:plainTextDescription "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)." ;
rdfs:isDefinedBy ;
rdfs:label "Dynamic Friction"@en ;
skos:broader quantitykind:Friction ;
.
quantitykind:DynamicFrictionCoefficient
a qudt:QuantityKind ;
dcterms:description "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)."^^rdf:HTML ;
qudt:applicableUnit unit:NUM ;
qudt:applicableUnit unit:UNITLESS ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Friction"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:informativeReference "http://en.wikipedia.org/wiki/Friction"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\mu = \\frac{F}{N}\\), where \\(F\\) is the tangential component of the contact force and \\(N\\) is the normal component of the contact force between two sliding bodies."^^qudt:LatexString ;
qudt:latexSymbol "\\(\\mu\\)"^^qudt:LatexString ;
qudt:plainTextDescription "Kinetic (or dynamic) friction occurs when two objects are moving relative to each other and rub together (like a sled on the ground)." ;
qudt:qkdvDenominator qkdv:A0E0L1I0M1H0T-2D0 ;
qudt:qkdvNumerator qkdv:A0E0L1I0M1H0T-2D0 ;
rdfs:isDefinedBy ;
rdfs:label "Dynamic Friction Coefficient"@en ;
skos:broader quantitykind:FrictionCoefficient ;
.
quantitykind:DynamicPressure
a qudt:QuantityKind ;
dcterms:description "Dynamic Pressure (indicated with q, or Q, and sometimes called velocity pressure) is the quantity defined by: \\(q = 1/2 * \\rho v^{2}\\), where (using SI units), \\(q\\) is dynamic pressure in \\(pascals\\), \\(\\rho\\) is fluid density in \\(kg/m^{3}\\) (for example, density of air) and \\(v \\) is fluid velocity in \\(m/s\\)."^^qudt:LatexString ;
qudt:applicableUnit unit:KiloN-PER-M2 ;
qudt:dbpediaMatch "http://dbpedia.org/resource/Dynamic_pressure"^^xsd:anyURI ;
qudt:hasDimensionVector qkdv:A0E0L-1I0M1H0T-2D0 ;
qudt:symbol "q" ;
rdfs:isDefinedBy ;
rdfs:label "Dynamic Pressure"@en ;
skos:broader quantitykind:Pressure ;
.
quantitykind:DynamicViscosity
a qudt:QuantityKind ;
dcterms:description "A measure of the molecular frictional resistance of a fluid as calculated using Newton's law."^^rdf:HTML ;
qudt:applicableUnit unit:CentiPOISE ;
qudt:applicableUnit unit:KiloGM-PER-M-HR ;
qudt:applicableUnit unit:KiloGM-PER-M-SEC ;
qudt:applicableUnit unit:LB-PER-FT-HR ;
qudt:applicableUnit unit:LB-PER-FT-SEC ;
qudt:applicableUnit unit:LB_F-SEC-PER-FT2 ;
qudt:applicableUnit unit:LB_F-SEC-PER-IN2 ;
qudt:applicableUnit unit:MicroPOISE ;
qudt:applicableUnit unit:MilliPA-SEC ;
qudt:applicableUnit unit:PA-SEC ;
qudt:applicableUnit unit:POISE ;
qudt:applicableUnit unit:SLUG-PER-FT-SEC ;
qudt:exactMatch quantitykind:Viscosity ;
qudt:hasDimensionVector qkdv:A0E0L-1I0M1H0T-1D0 ;
qudt:iec61360Code "0112/2///62720#UAD035" ;
qudt:informativeReference "http://dictionary.reference.com/browse/dynamic+viscosity"^^xsd:anyURI ;
qudt:isoNormativeReference "http://www.iso.org/iso/catalogue_detail?csnumber=31889"^^xsd:anyURI ;
qudt:latexDefinition "\\(\\tau_{xz} = \\eta\\frac{dv_x}{dz}\\), where \\(\\tau_{xz}\\) is shear stress in a fluid moving with a velocity gradient \\(\\frac{dv_x}{dz}\\) perpendicular to the plane of shear. "^^qudt:LatexString ;
qudt:latexSymbol "\\(\\mu\\)"^^qudt:LatexString ;
qudt:plainTextDescription "A measure of the molecular frictional resistance of a fluid as calculated using Newton's law." ;
rdfs:isDefinedBy ;
rdfs:label "Kelikatan dinamik"@ms ;
rdfs:label "Viscozitate dinamică"@ro ;
rdfs:label "dinamik akmazlık"@tr ;
rdfs:label "dinamična viskoznost"@sl ;
rdfs:label "dynamic viscosity"@en ;
rdfs:label "dynamische Viskosität"@de ;
rdfs:label "lepkość dynamiczna"@pl ;
rdfs:label "viscosidad dinámica"@es ;
rdfs:label "viscosidade dinâmica"@pt ;
rdfs:label "viscosità dinamica"@it ;
rdfs:label "viscosité dynamique"@fr ;
rdfs:label "viskozita"@cs ;
rdfs:label "динамическую вязкость"@ru ;
rdfs:label "لزوجة"@ar ;
rdfs:label "گرانروی دینامیکی/ویسکوزیته دینامیکی"@fa ;
rdfs:label "श्यानता"@hi ;
rdfs:label "动力粘度"@zh ;
rdfs:label "粘度"@ja ;
skos:altLabel "viscosità di taglio"@it ;
.
quantitykind:EarthClosestApproachVehicleVelocity
a qudt:QuantityKind ;
qudt:applicableUnit unit:CentiM-PER-HR ;
qudt:applicableUnit unit:CentiM-PER-KiloYR ;
qudt:applicableUnit unit:CentiM-PER-SEC ;
qudt:applicableUnit unit:CentiM-PER-YR ;
qudt:applicableUnit unit:FT-PER-DAY ;
qudt:applicableUnit unit:FT-PER-HR ;
qudt:applicableUnit unit:FT-PER-MIN ;
qudt:applicableUnit unit:FT-PER-SEC ;
qudt:applicableUnit unit:GigaHZ-M ;
qudt:applicableUnit unit:IN-PER-MIN ;
qudt:applicableUnit unit:IN-PER-SEC ;
qudt:applicableUnit unit:KN ;
qudt:applicableUnit unit:KiloM-PER-DAY ;
qudt:applicableUnit unit:KiloM-PER-HR ;
qudt:applicableUnit unit:KiloM-PER-SEC ;
qudt:applicableUnit unit:M-PER-HR ;
qudt:applicableUnit unit:M-PER-MIN ;
qudt:applicableUnit unit:M-PER-SEC ;
qudt:applicableUnit unit:M-PER-YR ;
qudt:applicableUnit unit:MI-PER-HR ;
qudt:applicableUnit unit:MI-PER-MIN ;
qudt:applicableUnit unit:MI-PER-SEC ;
qudt:applicableUnit unit:MI_N-PER-HR ;
qudt:applicableUnit unit:MI_N-PER-MIN ;
qudt:applicableUnit unit:MicroM-PER-SEC ;
qudt:applicableUnit unit:MilliM-PER-DAY ;
qudt:applicableUnit unit:MilliM-PER-HR ;
qudt:applicableUnit unit:MilliM-PER-MIN ;
qudt:applicableUnit unit:MilliM-PER-SEC ;
qudt:applicableUnit unit:MilliM-PER-YR ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T-1D0 ;
qudt:symbol "V_o" ;
rdfs:isDefinedBy ;
rdfs:label "Earth Closest Approach Vehicle Velocity"@en ;
skos:broader quantitykind:VehicleVelocity ;
.
quantitykind:EarthquakeMagnitude
a qudt:QuantityKind ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:iec61360Code "0112/2///62720#UAD365" ;
rdfs:isDefinedBy ;
rdfs:label "earthquake magnitude" ;
.
quantitykind:EccentricityOfOrbit
a qudt:QuantityKind ;
dcterms:description "The orbital eccentricity of an astronomical object is a parameter that determines the amount by which its orbit around another body deviates from a perfect circle. In a two-body problem with inverse-square-law force, every orbit is a Kepler orbit. The eccentricity of this Kepler orbit is a positive number that defines its shape."^^rdf:HTML ;
qudt:hasDimensionVector qkdv:A0E0L0I0M0H0T0D1 ;
qudt:latexSymbol "\\(\\varepsilon\\)"^^qudt:LatexString ;
qudt:plainTextDescription "The orbital eccentricity of an astronomical object is a parameter that determines the amount by which its orbit around another body deviates from a perfect circle. In a two-body problem with inverse-square-law force, every orbit is a Kepler orbit. The eccentricity of this Kepler orbit is a positive number that defines its shape." ;
rdfs:isDefinedBy ;
rdfs:label "Eccentricity Of Orbit"@en ;
.
quantitykind:EffectiveExhaustVelocity
a qudt:QuantityKind ;
dcterms:description "The velocity of an exhaust stream after reduction by effects such as friction, non-axially directed flow, and pressure differences between the inside of the rocket and its surroundings. The effective exhaust velocity is one of two factors determining the thrust, or accelerating force, that a rocket can develop, the other factor being the quantity of reaction mass expelled from the rocket in unit time. In most cases, the effective exhaust velocity is close to the actual exhaust velocity."^^rdf:HTML ;
qudt:hasDimensionVector qkdv:A0E0L1I0M0H0T-1D0 ;
qudt:plainTextDescription "The velocity of an exhaust stream after reduction by effects such as friction, non-axially directed flow, and pressure differences between the inside of the rocket and its surroundings. The effective exhaust velocity is one of two factors determining the thrust, or accelerating force, that a rocket can develop, the other factor being the quantity of reaction mass expelled from the rocket in unit time. In most cases, the effective exhaust velocity is close to the actual exhaust velocity." ;
qudt:symbol "v_{e}" ;
rdfs:isDefinedBy ;
rdfs:label "Effective Exhaustvelocity"@en ;
.
quantitykind:EffectiveMass
a qudt:QuantityKind ;
dcterms:description "\"Effective Mass\" is used in the motional equation for electrons in solid state bodies, depending on the wavenumber and corresponding to its velocity and energy level."^^rdf:HTML ;
qudt:applicableUnit unit:AMU ;
qudt:applicableUnit unit:CARAT ;
qudt:applicableUnit unit:CWT_LONG ;
qudt:applicableUnit unit:CWT_SHORT ;
qudt:applicableUnit unit:CentiGM ;
qudt:applicableUnit unit:DRAM_UK ;
qudt:applicableUnit unit:DRAM_US ;
qudt:applicableUnit unit:DWT ;
qudt:applicableUnit unit:DecaGM ;
qudt:applicableUnit unit:DeciGM ;
qudt:applicableUnit unit:DeciTONNE ;
qudt:applicableUnit unit:DeciTON_Metric ;
qudt:applicableUnit unit:EarthMass ;
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rdfs:label "Wirkungsgrad"@de ;
rdfs:label "efficiency"@en ;
rdfs:label "efficienza"@it ;
rdfs:label "eficiência"@pt ;
rdfs:label "rendement"@fr ;
rdfs:label "rendimiento"@es ;
rdfs:label "sprawność"@pl ;
rdfs:label "коэффициент полезного действия"@ru ;
rdfs:label "كفاءة"@ar ;
rdfs:label "効率"@ja ;
rdfs:label "效率"@zh ;
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dcterms:description "atomare Konstante für den speziellen Übergang, wobei die Wahrscheinlichkeit der Absorption, der spontanen Emission und der induzierte Emission von Energie abhängig ist von der Zahl der vorhandenen Lichtquanten, ausgedrückt als Energiedichte im Wellenmodell des Lichtes: Energie durch Volumen und Frequenz"@de ;
dcterms:description "nuclear constant for the special transition where the probability of the absorption, spontaneous emission or induced emission of energy depends on the number of existing quantums of light, expressed as energy density in the wave model of light: energy divided by volume and frequency"@en ;
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rdfs:label "Cas elektrik"@ms ;
rdfs:label "Charge électrique"@fr ;
rdfs:label "Elektrický náboj"@cs ;
rdfs:label "carga eléctrica"@es ;
rdfs:label "carga elétrica"@pt ;
rdfs:label "carica elettrica"@it ;
rdfs:label "electric charge"@en ;
rdfs:label "elektrik yükü"@tr ;
rdfs:label "elektrische Ladung"@de ;
rdfs:label "električni naboj"@sl ;
rdfs:label "elektromos töltés"@hu ;
rdfs:label "onus electricum"@la ;
rdfs:label "sarcină electrică"@ro ;
rdfs:label "ładunek elektryczny"@pl ;
rdfs:label "Ηλεκτρικό φορτίο"@el ;
rdfs:label "Електрически заряд"@bg ;
rdfs:label "Электрический заряд"@ru ;
rdfs:label "מטען חשמלי"@he ;
rdfs:label "الشحنة الكهربائية"@ar ;
rdfs:label "بار الکتریکی"@fa ;
rdfs:label "विद्युत आवेग या विद्युत बहाव"@hi ;
rdfs:label "电荷"@zh ;
rdfs:label "電荷"@ja ;
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skos:altLabel "cantitate de electricitate"@ro ;
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