{ chemistry, ... }: let inherit(chemistry) compound; in { absorptionCoefficient = { section = "Variables"; text = { deu = "Absorptions\\-koeffizient"; }; description = { deu = '' von \acrshort{latin} \textit{extinctio} \Q{Auslöschung}, auch \Q{Dämpfungs\-konstante} oder \Q{linearer Schwächungs\-koeffizient}, in \Newunit{metre}{-1}, Maß für die Verringerung der Intensität elektro\-magnetischer Strahlung beim Durchgang durch ein Medium ''; }; data = { kind = "Math"; short = "\\alpha"; }; sortedBy = "α"; }; absorptionEdge = { section = "Variables"; text = { deu = "Absorptions\\-kante"; }; description = { deu = '' in \Newunit{nanometre}{} ''; }; data = { kind = "Math"; short = "\\lambda_{min}"; }; sortedBy = "λmin"; }; absorptionMaximum = { section = "Variables"; text = { deu = "Wellen\\-länge des Absorptions\\-maximums"; }; description = { deu = '' in \Newunit{nanometre}{} ''; }; data = { kind = "Math"; short = "\\lambda_{max}"; }; sortedBy = "λmax"; }; activationEnergy = { section = "Variables"; text = { deu = "Aktivierungs\\-energie"; }; description = { deu = '' in \Newunit{joule}{} ''; }; data = { kind = "Math"; short = "E_A"; }; }; bandGap = { section = "Variables"; text = { deu = "Band\\-lücke"; }; description = { deu = '' \acrshort{english} auch \Q{Band-Gap}, in \Newunit{joule}{}, energetische Differenz zwischen Valenz- und Leitungs\-band eines Fest\-körpers ''; }; data = { kind = "Math"; short = "E_g"; }; }; boilingTemperature = { section = "Variables"; text = { deu = "Siede\\-punkt"; }; description = { deu = '' Koch\-punkt, genauer: Siede\-bereich; Temperatur, ab der eine Flüssigkeit in den gas\-förmigen Aggregat\-zustand übergeht, in ''${\Newunit{celsius}{}}$ ''; }; data = { kind = "Default"; short = "Kp."; }; }; carnotFactor = { section = "Variables"; text = { deu = "\\person{Carnot}-Wirkungs\\-grad"; }; description = { deu = '' Maximaler Wirkungs\-grad bei der Umwandlung von thermischer in mechanische Energie, ''${\acrshort{carnotFactor} = 1-\frac{T_k}{T_w}}$, benannt nach dem französischen Physiker \person[carnot]{Nicolas Léonard Sadi Carnot} ''; }; data = { kind = "Math"; short = "\\eta_C"; }; sortedBy = "ηC"; }; catalytLoading = { section = "Variables"; text = { deu = "Katalysator\\-beladung"; }; description = { deu = '' Molares Verhätlsnis von Katalysator zu Substrat ''; }; data = { kind = "Math"; short = "R"; }; }; coefficientOfDetermination = { section = "Variables"; text = { deu = "Determinations\\-koeffizient"; }; description = { deu = '' auch \textit{Bestimmtheits\-maß}, statistische Kenn\-zahl der Anpassungs\-güte einer Regression: je näher dieser Wert an Eins liegt, desto besser passt ein gewähltes Modell zu den Mess\-werten ''; }; data = { kind = "Math"; short = "R^2"; }; sortedBy = "R²"; }; conversion = { section = "Variables"; text = { deu = "Umsatz"; }; description = { deu = '' in \Newunit{percent}{} ''; }; data = { kind = "Math"; short = "U"; }; }; couplingConstant = { section = "Variables"; text = { deu = "Kopplungs\\-konstante"; }; description = { deu = '' in \Newunit{hertz}{} ''; }; data = { kind = "Math"; short = "J"; }; }; currentDensity = { section = "Variables"; text = { deu = "Elektrische Strom\\-dichte"; }; description = { deu = '' in \Newunit{microampere}{}\Unit{centimetre}{-2} ''; }; data = { kind = "Math"; short = "\\vec{J}"; }; sortedBy = "J"; }; dcCurrent = { section = "Variables"; text = { deu = "Elektrische Gleich\\-strom"; }; description = { deu = '' in \Newunit{ampere}{}, Ladungsfluss in einem Leiter ''; }; data = { kind = "Math"; short = "I"; }; }; dcVoltage = { section = "Variables"; text = { deu = "Elektrische Gleich\\-spannung"; }; description = { deu = '' in \Newunit{volt}{}, Differenz zweier elektrischer Potentiale ''; }; data = { kind = "Math"; short = "U"; }; }; decompositionTemperature = { section = "Variables"; text = { deu = "Zersetzungs\\-punkt"; }; description = { deu = '' Temperatur, oberhalb der sich eine Substanz zu anderen Stoffen zersetzt, in ''${\Newunit{celsius}{}}$ ''; }; data = { kind = "Default"; short = "Zers."; }; }; degreeOfPolymerisation = { section = "Variables"; text = { deu = "Polymerisatios\\-grad"; }; description = { deu = '' Verhältnis aus dem \acrfull{numberMeanMolarMass} und der \acrtext[molarMass]{molaren Masse} ($\acrshort{molarMass}_{n}$) der Wiederholungs\-einheit/Monomer ''; }; data = { kind = "Math"; short = "\\bar{X}_n"; }; sortedBy = "Xn"; }; diameter = { section = "Variables"; text = { deu = "Durchmesser"; eng = "diameter"; }; description = { deu = '' größtmögliche Abstand zweier Punkte der Kreis\-linie oder der Kugel\-oberflächen\-punkte ''; }; data = { kind = "Default"; short = "ø"; }; sortedBy = ""; }; diastereomericExcess = { section = "Variables"; text = { deu = "Diastereomeren\\-überschuss"; }; description = { deu = '' von \acrshort{english} \Q{Diastereomeric Excess}, in \Newunit{percent}{} ''; }; data = { kind = "Math"; short = "de"; }; }; electricConductivity = { section = "Variables"; text = { deu = "Elektrische Leitfähigkeit"; }; description = { deu = '' in \Newunit{siemens}{}\Unit{metre}{-1} ''; }; data = { kind = "Math"; short = "\\sigma"; }; sortedBy = "σ"; }; electrodePotential = { section = "Variables"; text = { deu = "Elektroden\\-potential"; }; description = { deu = '' in \Newunit{volt}{} ''; }; data = { kind = "Math"; short = "E"; }; }; enantiomericExcess = { section = "Variables"; text = { deu = "Enantiomeren\\-überschuss"; }; description = { deu = '' von \acrshort{english} \Q{Enantiomeric Excess}, in \Newunit{percent}{} ''; }; data = { kind = "Math"; short = "ee"; }; }; extinctionCoefficient = { section = "Variables"; text = { deu = "Extinktions\\-koeffizient"; }; description = { deu = '' von \acrshort{latin} \textit{extinctio} \Q{Auslöschung}, auch \Q{molarer Absorptionskoeffizient}, in \Newunit{litre}{}\Unit{mol}{-1}\Unit{centimetre}{-1}, Verhältnis von Extinktion zum Produkt aus Stoff\-mengen\-konzentration und Schicht\-dicke ''; }; data = { kind = "Math"; short = "\\varepsilon"; }; sortedBy = "ε"; }; massMeanMolarMass = { section = "Variables"; text = { deu = "Gewichts\\-mittel der molaren Masse"; }; description = { deu = '' in \Newunit{gram}{}\Unit{mol}{-1} ''; }; data = { kind = "Math"; short = "M_\\omega"; }; }; massToChargeRatio = { section = "Variables"; text = { deu = "Masse-zu-Ladungs-Verhältnis"; eng = "Mass-to-Charge Ratio"; }; description = { deu = '' in \Newunit{kilogram}{}\Unit{coulomb}{-1} oder \Newunit{dalton}{}\Unit{elementaryCharge}{-1}, Verhältnis der Masse eines Teilchen zu seiner Ladung, eine Größe der \acrlong{massSpectrometry} ''; }; data = { kind = "Default"; short = "\\textit{m/z}"; }; }; meltingTemperature = { section = "Variables"; text = { deu = "Schmelz\\-punkt"; }; description = { deu = '' von \acrshort{english} \Q{Fusion Point}, genauer: Schmelz\-bereich; Temperatur, ab der ein Fest\-stoff in den flüssigen Aggregat\-zustand übergeht ''; }; data = { kind = "Default"; short = "Fp."; }; }; molarMass = { section = "Variables"; text = { deu = "Molare Masse"; }; description = { deu = '' Masse eines \acrlong{mol}s einer Substanz ''; }; data = { kind = "Math"; short = "M"; }; }; nD20 = { section = "Variables"; text = { deu = "Brechungs\\-index"; }; description = { deu = '' bei ''${\Physical{20}{}{celsius}{}}$ und einer Wellen\-länge von ''${\Physical{589}{}{nanometre}{}}$ (Natrium-D-Linie ''; }; data = { kind = "Math"; short = "n^{20}_D"; }; sortedBy = "n20D"; }; numberMeanMolarMass = { section = "Variables"; text = { deu = "Zahlen\\-mittel der molaren Masse"; }; description = { deu = '' in \Newunit{gram}{}\Unit{mol}{-1} ''; }; data = { kind = "Math"; short = "M_n"; }; }; pH = { section = "Variables"; text = { deu = "Potential des ${compound.format "Wasserstoffes"}"; }; description = { deu = '' von \acrshort{latin} \Q{potentia hydrogenii}, negativer dekadischer Logarithmus der Konzentration von ${compound.format "Oxonium||ionen"} (\ch{H+.'n'}\,Solvent) ''; }; data = { kind = "Default"; short = "pH"; }; }; polyDispersity = { section = "Variables"; text = { deu = "Poly\\-dispersität"; }; description = { deu = '' von \acrshort{latin} \textit{dispergere} \Q{zerstreuen}, Verhältnis von \acrlong{massMeanMolarMass} zum \acrlong{numberMeanMolarMass} ''; }; data = { kind = "Default"; short = "Đ"; }; sortedBy = "D"; }; ratioOfFronts = { section = "Variables"; text = { deu = "Retentions\\-faktor"; }; description = { deu = '' Verhältnis von Lauf\-strecke des Analyten zur Lauf\-strecke des Lauf\-mittels ''; }; data = { kind = "Math"; short = "R_f"; }; sortedBy = "Rf"; }; reactionRate = { section = "Variables"; text = { deu = "Reaktions\\-geschwindigkeit"; }; description = { deu = '' ''${\nu = -\frac{d[Edukt]}{dt}}$ ''; }; data = { kind = "Math"; short = "\\nu"; }; sortedBy = "ν"; }; specialViscosity = { section = "Variables"; text = { deu = "Spezifische Viskosität"; }; description = { }; data = { kind = "Math"; short = "\\eta_{sp}"; }; sortedBy = "η"; }; sublimationTemperature = { section = "Variables"; text = { deu = "Sublimations\\-punkt"; }; description = { deu = '' genauer: Sublimations\-bereich; Temperatur, ab der eine Fest\-stoff in den gas\-förmigen Aggregat\-zustand übergeht ''; }; data = { kind = "Default"; short = "Sp."; }; }; tempDegree = { section = "Variables"; text = { deu = "Temperatur"; }; description = { deu = '' in \Newunit{celsius}{}, veraltet: empirische Temperatur ''; }; data = { kind = "Math"; short = "\\vartheta"; }; sortedBy = "ϑ"; }; temperature = { section = "Variables"; text = { deu = "Absolute Temperatur"; }; description = { deu = '' in \Newunit{kelvin}{} ''; }; data = { kind = "Math"; short = "T"; }; }; time = { section = "Variables"; text = { deu = "Zeit"; }; description = { deu = '' in \Newunit{second}{}, \Newunit{minute}{}, \Newunit{hour}{}, \acrshort{etc}, von \acrshort{english} \Q{Time} ''; }; data = { kind = "Math"; short = "t"; }; }; turnoverFrequency = { section = "Variables"; text = { deu = "Wechsel\\-zahl"; }; description = { deu = '' in \Newunit{second}{-1}, von \acrshort{english} \Q{Turnover Frequency} ''; }; data = { kind = "Math"; short = "TOF"; }; }; turnoverNumber = { section = "Variables"; text = { deu = "katalytische Produktivität"; }; description = { deu = '' dimensionslos, von \acrshort{english} \Q{Turnover Number} ''; }; data = { kind = "Math"; short = "TON"; }; }; waveFrequency = { section = "Variables"; text = { deu = "Wellen\\-frequenz"; }; description = { deu = '' in \Newunit{hertz}{}, Quotient aus \acrlong{speedOfLight} und \acrlong{waveLength}: ''${\nu = \frac{\acrshort{speedOfLight}}{\acrshort{waveLength}}}$ ''; }; data = { kind = "Math"; short = "\\nu"; }; sortedBy = "ν"; }; waveLength = { section = "Variables"; text = { deu = "Wellen\\-länge"; }; description = { deu = '' in \Newunit{nanometre}{-1}, Distanz zweier Punkte gleicher Phase, \acrshort{forExample} Wellen\-berg zu Wellen\-berg ''; }; data = { kind = "Math"; short = "\\lambda"; }; sortedBy = "λ"; }; waveNumber = { section = "Variables"; text = { deu = "Wellen\\-zahl"; }; description = { deu = '' in \Newunit{cm-1}{}, Kehr\-wert der \acrlong{waveLength}: ''${\widetilde{\nu} = \acrshort{waveLength}^{-1}}$ ''; }; data = { kind = "Math"; short = "\\widetilde{\\nu}"; }; sortedBy = "ν"; }; }