unit:V-PER-M2

URI: http://qudt.org/vocab/unit/V-PER-M2

Type

Description

$Volt per Square Metre$ is the divergence at a particular point in a vector field is (roughly) how much the vector field 'spreads out' from that point. Operationally, we take the partial derivative of each of the field with respect to each of its space variables and add all the derivatives together to get the divergence. $Electric field$ ( $V / m$ ) differentiated with respect to distance ( $m$ ) yields $V / (m^{2})$ .

Properties

qudt:applicableSystem

qudt:conversionMultiplier

qudt:conversionMultiplierSN

qudt:hasDimensionVector

qudt:hasQuantityKind

qudt:hasFactorUnit

qudt:derivedCoherentUnitOfSystem

qudt:symbol

rdf:type

qudt:ucumCode

Annotations

dcterms:description

Volt per Square Metre

is the divergence at a particular point in a vector field is (roughly) how much the vector field 'spreads out' from that point. Operationally, we take the partial derivative of each of the field with respect to each of its space variables and add all the derivatives together to get the divergence.

Electric field

(

V / m

) differentiated with respect to distance (

m

) yields

V / (m^{2})

qudt:expression

rdfs:isDefinedBy

rdfs:label

View as: CSV

Work in progress

RDF/XML

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    xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
    xmlns:j.0="http://qudt.org/schema/qudt/"
    xmlns:j.1="http://purl.org/dc/terms/"
    xmlns:owl="http://www.w3.org/2002/07/owl#"
    xmlns:rdfs="http://www.w3.org/2000/01/rdf-schema#"
    xmlns:xsd="http://www.w3.org/2001/XMLSchema#" > 
  <rdf:Description rdf:about="http://qudt.org/vocab/unit/V-PER-M2">
    <j.0:hasFactorUnit rdf:nodeID="A0"/>
    <j.0:expression rdf:datatype="http://qudt.org/schema/qudt/LatexString">$V m^{-2}$</j.0:expression>
    <j.0:applicableSystem rdf:resource="http://qudt.org/vocab/sou/CGS-GAUSS"/>
    <j.0:derivedCoherentUnitOfSystem rdf:resource="http://qudt.org/vocab/sou/SI"/>
    <j.0:symbol>V/m²</j.0:symbol>
    <j.0:applicableSystem rdf:resource="http://qudt.org/vocab/sou/SI"/>
    <rdf:type rdf:resource="http://qudt.org/schema/qudt/Unit"/>
    <rdfs:label xml:lang="en">Volt per Square Metre</rdfs:label>
    <j.0:applicableSystem rdf:resource="http://qudt.org/vocab/sou/CGS-EMU"/>
    <j.0:conversionMultiplierSN rdf:datatype="http://www.w3.org/2001/XMLSchema#double">1.0E0</j.0:conversionMultiplierSN>
    <rdfs:label xml:lang="en-US">Volt per Square Meter</rdfs:label>
    <j.0:conversionMultiplier rdf:datatype="http://www.w3.org/2001/XMLSchema#decimal">1.0</j.0:conversionMultiplier>
    <rdfs:isDefinedBy rdf:resource="http://qudt.org/3.1.0/vocab/unit"/>
    <j.1:description rdf:datatype="http://qudt.org/schema/qudt/LatexString">
  $\textit{Volt per Square Metre}$ is the divergence at a particular point in a vector field is (roughly) how much the vector field 'spreads out' from that point. 
  Operationally, we take the partial derivative of each of the field with respect to each of its space variables and add all the derivatives together to get the divergence. 
  $\textit{Electric field}$ ($V/m$) differentiated with respect to distance ($m$) yields $V/(m^2)$.
  </j.1:description>
    <j.0:hasFactorUnit rdf:nodeID="A1"/>
    <j.0:ucumCode rdf:datatype="http://qudt.org/schema/qudt/UCUMcs">V.m-2</j.0:ucumCode>
    <j.0:hasDimensionVector rdf:resource="http://qudt.org/vocab/dimensionvector/A0E-1L0I0M1H0T-3D0"/>
    <j.0:hasQuantityKind rdf:resource="http://qudt.org/vocab/quantitykind/EnergyPerAreaElectricCharge"/>
  </rdf:Description>
</rdf:RDF>

TURTLE

@prefix owl: <http://www.w3.org/2002/07/owl#> .
@prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
@prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
@prefix xsd: <http://www.w3.org/2001/XMLSchema#> .

<http://qudt.org/vocab/unit/V-PER-M2>
  rdf:type <http://qudt.org/schema/qudt/Unit> ;
  <http://purl.org/dc/terms/description> """
  $\\textit{Volt per Square Metre}$ is the divergence at a particular point in a vector field is (roughly) how much the vector field 'spreads out' from that point. 
  Operationally, we take the partial derivative of each of the field with respect to each of its space variables and add all the derivatives together to get the divergence. 
  $\\textit{Electric field}$ ($V/m$) differentiated with respect to distance ($m$) yields $V/(m^2)$.
  """^^<http://qudt.org/schema/qudt/LatexString> ;
  <http://qudt.org/schema/qudt/applicableSystem> <http://qudt.org/vocab/sou/CGS-EMU> ;
  <http://qudt.org/schema/qudt/applicableSystem> <http://qudt.org/vocab/sou/CGS-GAUSS> ;
  <http://qudt.org/schema/qudt/applicableSystem> <http://qudt.org/vocab/sou/SI> ;
  <http://qudt.org/schema/qudt/conversionMultiplier> 1.0 ;
  <http://qudt.org/schema/qudt/conversionMultiplierSN> 1.0E0 ;
  <http://qudt.org/schema/qudt/derivedCoherentUnitOfSystem> <http://qudt.org/vocab/sou/SI> ;
  <http://qudt.org/schema/qudt/expression> "$V m^{-2}$"^^<http://qudt.org/schema/qudt/LatexString> ;
  <http://qudt.org/schema/qudt/hasDimensionVector> <http://qudt.org/vocab/dimensionvector/A0E-1L0I0M1H0T-3D0> ;
  <http://qudt.org/schema/qudt/hasFactorUnit> [] ;
  <http://qudt.org/schema/qudt/hasFactorUnit> [] ;
  <http://qudt.org/schema/qudt/hasQuantityKind> <http://qudt.org/vocab/quantitykind/EnergyPerAreaElectricCharge> ;
  <http://qudt.org/schema/qudt/symbol> "V/m²" ;
  <http://qudt.org/schema/qudt/ucumCode> "V.m-2"^^<http://qudt.org/schema/qudt/UCUMcs> ;
  rdfs:isDefinedBy <http://qudt.org/3.1.0/vocab/unit> ;
  rdfs:label "Volt per Square Meter"@en-US ;
  rdfs:label "Volt per Square Metre"@en ;
.

JSON

{"resource":"Volt per Square Metre" 
 ,"qname":"unit:V-PER-M2" 
 ,"uri":"http:\/\/qudt.org\/vocab\/unit\/V-PER-M2" 
 ,"properties":["applicable system":"sou:CGS-EMU" 
    ,"applicable system":"sou:CGS-GAUSS" 
    ,"applicable system":"sou:SI" 
    ,"conversion multiplier":"1.0" 
    ,"conversion multiplier scientific":"1.0E0" 
    ,"description":"\n  $\\textit{Volt per Square Metre}$ is the divergence at a particular point in a vector field is (roughly) how much the vector field 'spreads out' from that point. \n  Operationally, we take the partial derivative of each of the field with respect to each of its space variables and add all the derivatives together to get the divergence. \n  $\\textit{Electric field}$ ($V\/m$) differentiated with respect to distance ($m$) yields $V\/(m^2)$.\n  " 
    ,"expression":"$V m^{-2}$" 
    ,"has dimension vector":"dimension:A0E-1L0I0M1H0T-3D0" 
    ,"has quantity kind":"quantitykind:EnergyPerAreaElectricCharge" 
    ,"hasFactorUnit":null 
    ,"hasFactorUnit":null 
    ,"is coherent derived unit of system":"sou:SI" 
    ,"isDefinedBy":"&lt;http:\/\/qudt.org\/3.1.0\/vocab\/unit&gt;" 
    ,"label":"Volt per Square Meter" 
    ,"label":"Volt per Square Metre" 
    ,"symbol":"V\/m&sup2;" 
    ,"type":"qudt:Unit" 
    ,"ucum code":"V.m-2" 
    ]}

JSON-LD

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  "@type" : "http://qudt.org/schema/qudt/Unit",
  "description" : "\n  $\\textit{Volt per Square Metre}$ is the divergence at a particular point in a vector field is (roughly) how much the vector field 'spreads out' from that point. \n  Operationally, we take the partial derivative of each of the field with respect to each of its space variables and add all the derivatives together to get the divergence. \n  $\\textit{Electric field}$ ($V/m$) differentiated with respect to distance ($m$) yields $V/(m^2)$.\n  ",
  "applicableSystem" : [ "http://qudt.org/vocab/sou/CGS-GAUSS", "http://qudt.org/vocab/sou/SI", "http://qudt.org/vocab/sou/CGS-EMU" ],
  "conversionMultiplier" : "1.0",
  "conversionMultiplier:SN" : 1.0,
  "derivedCoherentUnitOfSystem" : "http://qudt.org/vocab/sou/SI",
  "expression" : "$V m^{-2}$",
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  "hasFactorUnit" : [ "_:b0", "_:b1" ],
  "hasQuantityKind" : "http://qudt.org/vocab/quantitykind/EnergyPerAreaElectricCharge",
  "symbol" : "V/m²",
  "ucumCode" : "V.m-2",
  "isDefinedBy" : "http://qudt.org/3.1.0/vocab/unit",
  "label" : [ {
    "@language" : "en",
    "@value" : "Volt per Square Metre"
  }, {
    "@language" : "en-us",
    "@value" : "Volt per Square Meter"
  } ],
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    "owl" : "http://www.w3.org/2002/07/owl#",
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    "rdfs" : "http://www.w3.org/2000/01/rdf-schema#"
  }
}

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