Unit ADim

Description

ADim - Automatic Dimensional Analysis run-time library.

ADim is a Free Pascal library for run-time dimensional analysis of physical quantities. It provides:

• The TQuantity type, which associates a double value with a TDimension carrying the full SI exponent signature.

• Arithmetic operators that propagate and verify physical dimensions at run time, raising exceptions on dimensional mismatches.

• Support for complex quantities (TComplexQuantity), real and complex vectors and matrices up to 4 dimensions, and Clifford algebra Cl(3,0) multivector quantities.

• A comprehensive set of SI base and derived units (TUnit, TFactoredUnit) with prefix support.

• Fundamental physical constants expressed as TQuantity values.

• Mathematical functions (trigonometric, power, logarithm) that are dimensionally aware.

When the compiler symbol ADIMOFF is defined, all dimensional checking is disabled and every quantity type degenerates to its underlying numerical type (double, TComplex, etc.), incurring zero run-time overhead.

@copyright 2024-2026 Melchiorre Caruso @license GNU Lesser General Public License v3 with modified LGPL exception.

This unit is part of the ADim library, distributed under the GNU Lesser General Public License v3 (LGPL v3) with the following special exception:

As a special exception, the copyright holders of this library give you permission to link this library with independent modules to produce an executable, regardless of the license terms of these independent modules, and to copy and distribute the resulting executable under terms of your choice, provided that you also meet, for each linked independent module, the terms and conditions of the license of that module. An independent module is a module which is not derived from or based on this library. If you modify this library, you may extend this exception to your version of the library, but you are not obligated to do so. If you do not wish to do so, delete this exception statement from your version.

Overview

Classes, Interfaces, Objects and Records

Name	Description
Record TQuantity	Represents a physical quantity with dimension checking at runtime.
Record TComplex	Represents a complex number in Cartesian form: z = Re + i·Im.
Record TComplexQuantity	Represents a complex quantity with physical dimensions.
Record TImaginaryUnit	Represents the imaginary unit i, defined by i² = -1.
Record T2DSpace	Tag record representing a 2-dimensional space.
Record T3DSpace	Tag record representing a 3-dimensional space.
Record T4DSpace	Tag record representing a 4-dimensional space.
Record TRMatrix	Generic square matrix of real values (double) with dimension TSpace.N × TSpace.N.
Record TCMatrix	Generic square matrix of complex values (TComplex) with dimension TSpace.N × TSpace.N.
Record TRMatrixQuantity	Generic square matrix of real physical quantities (TQuantity) with dimension TSpace.N × TSpace.N.
Record TCMatrixQuantity	Generic square matrix of complex physical quantities (TComplexQuantity) with dimension TSpace.N × TSpace.N.
Record TRVector	Generic column vector of real values (double) with TSpace.N components.
Record TCVector	Generic column vector of complex values (TComplex) with TSpace.N components.
Record TRVecQuantity	Generic column vector of real physical quantities (TQuantity) with TSpace.N components.
Record TCVecQuantity	Generic column vector of complex physical quantities (TComplexQuantity) with TSpace.N components.
Record TR2MatrixHelper	Record helper for TR2Matrix providing additional operations specific to 2×2 real matrices.
Record TR3MatrixHelper	Record helper for TR3Matrix providing additional operations specific to 3×3 real matrices.
Record TR4MatrixHelper	Record helper for TR4Matrix providing additional operations specific to 4×4 real matrices.
Record TC2MatrixHelper	Record helper for TC2Matrix providing additional operations specific to 2×2 complex matrices.
Record TC3MatrixHelper	Record helper for TC3Matrix providing additional operations specific to 3×3 complex matrices.
Record TC4MatrixHelper	Record helper for TC4Matrix providing additional operations specific to 4×4 complex matrices.
Record TC2VectorHelper	Record helper for TC2Vector providing additional operations specific to 2-component complex vectors.
Record TC3VectorHelper	Record helper for TC3Vector providing additional operations specific to 3-component complex vectors.
Record TC4VectorHelper	Record helper for TC4Vector providing additional operations specific to 4-component complex vectors.
Record TR2VectorHelper	Record helper for TR2Vector providing additional operations specific to 2-component real vectors.
Record TR3VectorHelper	Record helper for TR3Vector providing additional operations specific to 3-component real vectors.
Record TR4VectorHelper	Record helper for TR4Vector providing additional operations specific to 4-component real vectors.
Record TCL3Multivector	Represents a general multivector in the Clifford algebra Cl(3,0) over R3.
Record TCL3Trivector	Represents a pure trivector (pseudoscalar) in the Clifford algebra Cl(3,0).
Record TCL3Bivector	Represents a pure bivector (grade-2 element) in the Clifford algebra Cl(3,0).
Record TCL3Vector	Represents a pure vector (grade-1 element) in the Clifford algebra Cl(3,0).
Record TCL3MultivectorHelper	Record helper for TCL3Multivector providing the full set of geometric algebra operations for Cl(3,0).
Record TCL3TrivectorHelper	Record helper for TCL3Trivector providing geometric operations specific to grade-3 elements of Cl(3,0).
Record TCL3BivectorHelper	Record helper for TCL3Bivector providing geometric operations specific to grade-2 elements of Cl(3,0).
Record TCL3VectorHelper	Record helper for TCL3Vector providing geometric operations specific to grade-1 elements of Cl(3,0).
Record TCL3Versor1	Represents the basis vector e₁ of Cl(3,0).
Record TCL3Versor2	Represents the basis vector e₂ of Cl(3,0).
Record TCL3Versor3	Represents the basis vector e₃ of Cl(3,0).
Record TCL3Biversor12	Represents the basis bivector e₁∧e₂ of Cl(3,0).
Record TCL3Biversor13	Represents the basis bivector e₁∧e₃ of Cl(3,0).
Record TCL3Biversor23	Represents the basis bivector e₂∧e₃ of Cl(3,0).
Record TCL3Triversor123	Represents the unit pseudoscalar e₁∧e₂∧e₃ of Cl(3,0).
Record TCL3MultivecQuantity	Represents a general multivector of Cl(3,0) with physical dimensions.
Record TCL3TrivecQuantity	Represents a pure trivector (grade-3 element) of Cl(3,0) with physical dimensions.
Record TCL3BivecQuantity	Represents a pure bivector (grade-2 element) of Cl(3,0) with physical dimensions.
Record TCL3VecQuantity	Represents a pure vector (grade-1 element) of Cl(3,0) with physical dimensions.
Record TComplexQuantityHelper	Record helper for TComplexQuantity providing additional operations on complex physical quantities.
Record TC2MatrixQuantityHelper	Record helper for TC2MatrixQuantity providing additional operations specific to 2×2 complex quantity matrices.
Record TC2VecQuantityHelper	Record helper for TC2VecQuantity providing additional operations specific to 2-component complex quantity vectors.
Record TC3VecQuantityHelper	Record helper for TC3VecQuantity providing additional operations specific to 3-component complex quantity vectors.
Record TC4VecQuantityHelper	Record helper for TC4VecQuantity providing additional operations specific to 4-component complex quantity vectors.
Record TR2VecQuantityHelper	Record helper for TR2VecQuantity providing additional operations specific to 2-component real quantity vectors.
Record TR3VecQuantityHelper	Record helper for TR3VecQuantity providing additional operations specific to 3-component real quantity vectors.
Record TR4VecQuantityHelper	Record helper for TR4VecQuantity providing additional operations specific to 4-component real quantity vectors.
Record TCL3MultivecQuantityHelper	Record helper for TCL3MultivecQuantity providing the full set of geometric algebra operations on multivector quantities of Cl(3,0).
Record TCL3TrivecQuantityHelper	Record helper for TCL3TrivecQuantity providing geometric operations specific to grade-3 elements of Cl(3,0) with physical dimensions.
Record TCL3BivecQuantityHelper	Record helper for TCL3BivecQuantity providing geometric operations specific to grade-2 elements of Cl(3,0) with physical dimensions.
Record TCL3VecQuantityHelper	Record helper for TCL3VecQuantity providing geometric operations specific to grade-1 elements of Cl(3,0) with physical dimensions.
Record TUnit	Represents a physical unit of measurement with its dimensional signature, symbol, name and prefix information.
Record TFactoredUnit	Represents a physical unit of measurement with a conversion factor relative to the corresponding SI base unit.
Record TDegreeCelsiusUnit	Represents the degree Celsius temperature unit (°C).
Record TDegreeFahrenheitUnit	Represents the degree Fahrenheit temperature unit (°F).
Record TUnitHelper	Record helper for TUnit providing conversion and formatting operations for all supported quantity types.
Record TFactoredUnitHelper	Record helper for TFactoredUnit providing conversion and formatting operations for all supported quantity types.
Record TDegreeCelsiusUnitHelper	Record helper for TDegreeCelsiusUnit providing conversion and formatting operations for temperatures expressed in degrees Celsius.
Record TDegreeFahrenheitUnitHelper	Record helper for TDegreeFahrenheitUnit providing conversion and formatting operations for temperatures expressed in degrees Fahrenheit.
Record TR2Versor1	Represents the basis vector e₁ of ℝ².
Record TR2Versor2	Represents the basis vector e₂ of ℝ².
Record TR3Versor1	Represents the basis vector e₁ of ℝ³.
Record TR3Versor2	Represents the basis vector e₂ of ℝ³.
Record TR3Versor3	Represents the basis vector e₃ of ℝ³.
Record TR4Versor1	Represents the basis vector e₁ of ℝ⁴.
Record TR4Versor2	Represents the basis vector e₂ of ℝ⁴.
Record TR4Versor3	Represents the basis vector e₃ of ℝ⁴.
Record TR4Versor4	Represents the basis vector e₄ of ℝ⁴.

Functions and Procedures

function Abs(const AValue: double): double;

function Abs(const AValue: TComplex): double;

function ArcCos(const AValue: double): TQuantity;

function ArcSin(const AValue: double): TQuantity;

function ArcTan(const AValue: double): TQuantity;

function ArcTan2(const x, y: double): TQuantity;

function Commutator(const ALeft, ARight: TC2Matrix): TC2Matrix;

function Commutator(const ALeft, ARight: TC3Matrix): TC3Matrix;

function Commutator(const ALeft, ARight: TC4Matrix): TC4Matrix;

function Cos(const AQuantity: TQuantity): double;

function Cosecant(const AQuantity: TQuantity): double;

function Cotan(const AQuantity: TQuantity): double;

function CubicPower(const AValue: TComplex): TComplex;

function CubicPower(const AQuantity: TComplexQuantity): TComplexQuantity;

function CubicPower(const AQuantity: TQuantity): TQuantity;

function CubicRoot(const AValue: TComplex): TC3ArrayOfComplex;

function CubicRoot(const AQuantity: TQuantity): TQuantity;

function EqualToZero(const AQuantity: TQuantity): boolean;

function Exp(const AQuantity: TQuantity): TQuantity;

function GreaterThanOrEqualToZero(const AQuantity: TQuantity): boolean;

function GreaterThanZero(const AQuantity: TQuantity): boolean;

function LessThanOrEqualToZero(const AQuantity: TQuantity): boolean;

function LessThanZero(const AQuantity: TQuantity): boolean;

function Log10(const AQuantity: TQuantity): double;

function Log2(const AQuantity: TQuantity): double;

function LogN(ABase: longint; const AQuantity: TQuantity): double;

function LogN(const ABase, AQuantity: TQuantity): double;

function Max(const ALeft, ARight: TQuantity): TQuantity;

function Min(const ALeft, ARight: TQuantity): TQuantity;

function NotEqualToZero(const AQuantity: TQuantity): boolean;

function Power(const ABase: TQuantity; AExponent: double): double;

function QuarticPower(const AValue: TComplex): TComplex;

function QuarticPower(const AQuantity: TComplexQuantity): TComplexQuantity;

function QuarticPower(const AQuantity: TQuantity): TQuantity;

function QuarticRoot(const AValue: TComplex): TC4ArrayOfComplex;

function QuarticRoot(const AQuantity: TQuantity): TQuantity;

function QuinticPower(const AQuantity: TQuantity): TQuantity;

function QuinticRoot(const AQuantity: TQuantity): TQuantity;

function SameValueEx(const AValue1, AValue2: double): boolean;

function SameValueEx(const AValue1, AValue2: TC2Matrix): boolean;

function SameValueEx(const AValue1, AValue2: TC2Vector): boolean;

function SameValueEx(const AValue1, AValue2: TC3Matrix): boolean;

function SameValueEx(const AValue1, AValue2: TC3Vector): boolean;

function SameValueEx(const AValue1, AValue2: TC4Matrix): boolean;

function SameValueEx(const AValue1, AValue2: TC4Vector): boolean;

function SameValueEx(const AValue1, AValue2: TComplex): boolean;

function SameValueEx(const ALeft, ARight: TQuantity): boolean;

function Secant(const AQuantity: TQuantity): double;

function SexticPower(const AQuantity: TQuantity): TQuantity;

function SexticRoot(const AQuantity: TQuantity): TQuantity;

function Sin(const AQuantity: TQuantity): double;

function SolveEquation(const a: double): double;

function SolveEquation(const a: TComplex): TComplex;

function SolveEquation(const a, b: TComplex): TC2ArrayOfComplex;

function SolveEquation(const a, b, c: TComplex): TC3ArrayOfComplex;

function SolveEquation(const a, b, c, d: TComplex): TC4ArrayOfComplex;

function SquarePower(const AValue: TComplex): TComplex;

function SquarePower(const AQuantity: TComplexQuantity): TComplexQuantity;

function SquareRoot(const AValue: TComplex): TC2ArrayOfComplex;

function SquareRoot(const AQuantity: TQuantity): TQuantity;

function Tan(const AQuantity: TQuantity): double;

Types

TPrefix = (...);

TPrefixes = array of TPrefix;

TExponents = array of longint;

TR2Matrix = specialize TRMatrix<T2DSpace>;

TR3Matrix = specialize TRMatrix<T3DSpace>;

TR4Matrix = specialize TRMatrix<T4DSpace>;

TC2Matrix = specialize TCMatrix<T2DSpace>;

TC3Matrix = specialize TCMatrix<T3DSpace>;

TC4Matrix = specialize TCMatrix<T4DSpace>;

TR2MatrixQuantity = specialize TRMatrixQuantity<T2DSpace>;

TR3MatrixQuantity = specialize TRMatrixQuantity<T3DSpace>;

TR4MatrixQuantity = specialize TRMatrixQuantity<T4DSpace>;

TC2MatrixQuantity = specialize TCMatrixQuantity<T2DSpace>;

TC3MatrixQuantity = specialize TCMatrixQuantity<T3DSpace>;

TC4MatrixQuantity = specialize TCMatrixQuantity<T4DSpace>;

TC2Vector = specialize TCVector<T2DSpace>;

TC3Vector = specialize TCVector<T3DSpace>;

TC4Vector = specialize TCVector<T4DSpace>;

TR2Vector = specialize TRVector<T2DSpace>;

TR3Vector = specialize TRVector<T3DSpace>;

TR4Vector = specialize TRVector<T4DSpace>;

TC2ArrayOfComplex = array[1..T2DSpace.N] of TComplex;

TC3ArrayOfComplex = array[1..T3DSpace.N] of TComplex;

TC4ArrayOfComplex = array[1..T4DSpace.N] of TComplex;

TC2ArrayOfVector = array[1..T2DSpace.N] of TC2Vector;

TC3ArrayOfVector = array[1..T3DSpace.N] of TC3Vector;

TC4ArrayOfVector = array[1..T4DSpace.N] of TC4Vector;

TR2VecQuantity = specialize TRVecQuantity<T2DSpace>;

TR3VecQuantity = specialize TRVecQuantity<T3DSpace>;

TR4VecQuantity = specialize TRVecQuantity<T4DSpace>;

TC2VecQuantity = specialize TCVecQuantity<T2DSpace>;

TC3VecQuantity = specialize TCVecQuantity<T3DSpace>;

TC4VecQuantity = specialize TCVecQuantity<T4DSpace>;

TCL3MultivectorComponent = (...);

TCL3MultivectorComponents = set of TCL3MultivectorComponent;

TC2ArrayOfQuantity = array[1..T2DSpace.N] of TComplexQuantity;

TC3ArrayOfQuantity = array[1..T3DSpace.N] of TComplexQuantity;

TC4ArrayOfQuantity = array[1..T4DSpace.N] of TComplexQuantity;

TC2ArrayOfVecQuantity = array[1..T2DSpace.N] of TC2VecQuantity;

TC3ArrayOfVecQuantity = array[1..T3DSpace.N] of TC3VecQuantity;

TC4ArrayOfVecQuantity = array[1..T4DSpace.N] of TC4VecQuantity;

Constants

AvogadroConstant : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: -60; FCandela: 0; FSteradian: 0); FValue: 6.02214076E+23);

BohrMagneton : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 9.2740100657E-24);

BohrRadius : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 5.29177210903E-11);

BoltzmannConstant : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: -60; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.380649E-23);

cA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

cA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

cC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

cC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

cL : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E-03 * 1e-02);

cm : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

cm2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

cm3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

cm4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-08);

cm5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-10);

cm6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

ComptonWaveLength : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 2.42631023867E-12);

CoulombConstant : TQuantity = (FDim: (FKilogram: 60; FMeter: 180; FSecond: -240; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 8.9875517923E+9);

cPl : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

cs : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

cs2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

cs3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

cs4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-08);

cs5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-10);

cs6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

dA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-01);

dA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

daA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+01);

daA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

daC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+01);

daC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

damol : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 60; FCandela: 0; FSteradian: 0); FValue: 1e+01);

daN : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+01);

daN2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 120; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

dC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-01);

dC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

DeuteronMass : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 3.3435837768E-27);

dL : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E-03 * 1e-01);

dm : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-01);

dm2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

dm3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

dm4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

dm5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-05);

dm6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

ds : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-01);

ds2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

ds3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

ds4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

ds5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-05);

ds6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

ElectricPermittivity : TQuantity = (FDim: (FKilogram: -60; FMeter: -180; FSecond: 240; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 8.8541878188E-12);

ElectronCharge : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.602176634E-19);

ElectronMass : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 9.1093837015E-31);

FineStructureConstant : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 7.2973525643E-3);

GeV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.602176634E-019 * 1e+09);

GHz : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

GHz2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+18);

gigatonne : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E+03 * 1e+09);

GJ : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

GJ2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+18);

GN : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

GN2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 120; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+18);

Gohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

GPa : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

GW : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

hA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

hA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+04);

hC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

hC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+04);

hmol : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 60; FCandela: 0; FSteradian: 0); FValue: 1e+02);

hN : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

hN2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 120; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+04);

InverseFineStructureConstant : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 137.035999177);

kA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kbar : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E+05 * 1e+03);

kBq : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kcal : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 4.184 * 1e+03);

keV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.602176634E-019 * 1e+03);

kGy : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kHz : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kHz2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kilotonne : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E+03 * 1e+03);

kJ : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kJ2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

km : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

km2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

km3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

km4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

km5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+15);

km6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+18);

kmol : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 60; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kN : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kN2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 120; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kPa : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kpsi : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 6894.75729316836 * 1e+03);

kSv : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kV2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -360; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kW : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

mA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

MagneticPermeability : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.25663706212E-6);

mbar : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E+05 * 1e-03);

mBq : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

Mcal : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 4.184 * 1e+06);

megaohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

megaparsec : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 3.08567758149137E+16 * 1e+06);

megatonne : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E+03 * 1e+06);

MeV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.602176634E-019 * 1e+06);

mF : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 240; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mGy : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mH : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

MHz : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

MHz2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

miA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

miBq : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

microsiemens : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 180; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miF : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 240; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miGy : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miH : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

millisiemens : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 180; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

milliW : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mim : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mim2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

mim3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

mim4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

mim5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-30);

mim6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

miohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miPl : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mis : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mis2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

mis3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

mis4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

mis5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-30);

mis6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

miSv : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miT : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: -120; FAmpere: -60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

MJ : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

MJ2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

mL : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E-03 * 1e-03);

Mly : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 9.4607304725808E+15 * 1e+06);

mm : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mm2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mm3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

mm4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

mm5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-15);

mm6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

MN : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

MN2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 120; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

mohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

MolarGasConstant : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: 120; FAmpere: 0; FKelvin: -60; FMole: -60; FCandela: 0; FSteradian: 0); FValue: 8.314462618);

MPa : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

mPl : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

ms : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

ms2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

ms3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

ms4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

ms5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-15);

ms6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

mSv : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mT : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: -120; FAmpere: -60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mV2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -360; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

MW : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

nA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

nanosiemens : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 180; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nBq : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

NeutronRestMass : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.67492750056E-27);

NewtonianConstantOfGravitation : TQuantity = (FDim: (FKilogram: -60; FMeter: 180; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 6.67430E-11);

nF : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 240; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nGy : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nH : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nm : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nm2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

nm3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-27);

nm4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

nm5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-45);

nm6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-54);

nohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

ns : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

ns2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

ns3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-27);

ns4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

ns5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-45);

ns6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-54);

nSv : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nT : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: -120; FAmpere: -60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

pBq : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

pC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

pC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

pF : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 240; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

picoA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

picoA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

PlanckConstant : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 6.62607015E-34);

pm : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

pm2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

pm3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

pm4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-48);

pm5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-60);

pm6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-72);

ProtonRestMass : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.67262192595E-27);

ps : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

ps2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

ps3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

ps4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-48);

ps5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-60);

ps6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-72);

ReducedPlanckConstant : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 6.62607015E-34/2/pi);

RydbergConstant : TQuantity = (FDim: (FKilogram: 0; FMeter: -60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 10973731.568157);

SoundIntensityReference : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E-12);

SpeedOfLight : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 299792458);

SquaredSpeedOfLight : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 8.98755178736818E+16);

StandardAccelerationOfGravity : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 9.80665);

TeV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.602176634E-019 * 1e+12);

THz : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

THz2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+24);

TJ : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

TJ2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+24);

TPa : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

TW : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

UnifiedAtomicMassUnit : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.66053906892E-27);

Variables

A: TUnit absolute AmpereUnit;

A2: TUnit absolute SquareAmpereUnit;

Ampere: TUnit absolute AmpereUnit;

AmperePerCubicMeter: TUnit absolute AmperePerCubicMeterUnit;

AmperePerKilogram: TUnit absolute AmperePerKilogramUnit;

AmperePerKilogramPerCubicMeter: TUnit absolute AmperePerKilogramPerCubicMeterUnit;

AmperePerKilogramPerMeter: TUnit absolute AmperePerKilogramPerMeterUnit;

AmperePerKilogramPerSquareMeter: TUnit absolute AmperePerKilogramPerSquareMeterUnit;

AmperePerMeter: TUnit absolute AmperePerMeterUnit;

AmperePerMole: TUnit absolute AmperePerMoleUnit;

AmperePerSquareMeter: TUnit absolute AmperePerSquareMeterUnit;

AmpereSecond: TUnit absolute AmpereSecondUnit;

angstrom: TFactoredUnit absolute AngstromUnit;

Astronomical: TFactoredUnit absolute AstronomicalUnit;

atm: TFactoredUnit absolute AtmosphereUnit;

Atmosphere: TFactoredUnit absolute AtmosphereUnit;

au: TFactoredUnit absolute AstronomicalUnit;

bar: TFactoredUnit absolute BarUnit;

Bequerel: TUnit absolute BequerelUnit;

Bq: TUnit absolute BequerelUnit;

C: TUnit absolute CoulombUnit;

C2: TUnit absolute SquareCoulombUnit;

cal: TFactoredUnit absolute CalorieUnit;

Calorie: TFactoredUnit absolute CalorieUnit;

Candela: TUnit absolute CandelaUnit;

CandelaPerCubicMeter: TUnit absolute CandelaPerCubicMeterUnit;

CandelaPerKilogram: TUnit absolute CandelaPerKilogramUnit;

CandelaPerKilogramPerSquareMeter: TUnit absolute CandelaPerKilogramPerSquareMeterUnit;

CandelaPerSquareMeter: TUnit absolute CandelaPerSquareMeterUnit;

CandelaSteradian: TUnit absolute CandelaSteradianUnit;

CandelaSteradianPerCubicMeter: TUnit absolute CandelaSteradianPerCubicMeterUnit;

CandelaSteradianPerKilogram: TUnit absolute CandelaSteradianPerKilogramUnit;

CandelaSteradianPerKilogramPerSquareMeter: TUnit absolute CandelaSteradianPerKilogramPerSquareMeterUnit;

CandelaSteradianPerSquareMeter: TUnit absolute CandelaSteradianPerSquareMeterUnit;

cd: TUnit absolute CandelaUnit;

cg: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-05);

cg2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-10);

Coulomb: TUnit absolute CoulombUnit;

CoulombMeter: TUnit absolute CoulombMeterUnit;

CoulombPerCubicMeter: TUnit absolute CoulombPerCubicMeterUnit;

CoulombPerKilogram: TUnit absolute CoulombPerKilogramUnit;

CoulombPerMeter: TUnit absolute CoulombPerMeterUnit;

CoulombPerMole: TUnit absolute CoulombPerMoleUnit;

CoulombPerSquareMeter: TUnit absolute CoulombPerSquareMeterUnit;

CoulombPerVolt: TUnit absolute CoulombPerVoltUnit;

CubicAmpere: TUnit absolute CubicAmpereUnit;

CubicCandela: TUnit absolute CubicCandelaUnit;

CubicFoot: TFactoredUnit absolute CubicFootUnit;

CubicInch: TFactoredUnit absolute CubicInchUnit;

CubicKelvin: TUnit absolute CubicKelvinUnit;

CubicKilogram: TUnit absolute CubicKilogramUnit;

CubicMeter: TUnit absolute CubicMeterUnit;

CubicMeterPerAmpere: TUnit absolute CubicMeterPerAmpereUnit;

CubicMeterPerCandela: TUnit absolute CubicMeterPerCandelaUnit;

CubicMeterPerCandelaPerSteradian: TUnit absolute CubicMeterPerCandelaPerSteradianUnit;

CubicMeterPerCubicSecond: TUnit absolute CubicMeterPerCubicSecondUnit;

CubicMeterPerCubicSecondPerAmpere: TUnit absolute CubicMeterPerCubicSecondPerAmpereUnit;

CubicMeterPerCubicSecondPerSquareAmpere: TUnit absolute CubicMeterPerCubicSecondPerSquareAmpereUnit;

CubicMeterPerKilogram: TUnit absolute CubicMeterPerKilogramUnit;

CubicMeterPerKilogramPerSquareSecond: TUnit absolute CubicMeterPerKilogramPerSquareSecondUnit;

CubicMeterPerMole: TUnit absolute CubicMeterPerMoleUnit;

CubicMeterPerQuarticSecond: TUnit absolute CubicMeterPerQuarticSecondUnit;

CubicMeterPerQuarticSecondPerAmpere: TUnit absolute CubicMeterPerQuarticSecondPerAmpereUnit;

CubicMeterPerQuarticSecondPerSquareAmpere: TUnit absolute CubicMeterPerQuarticSecondPerSquareAmpereUnit;

CubicMeterPerSecond: TUnit absolute CubicMeterPerSecondUnit;

CubicMeterPerSecondPerAmpere: TUnit absolute CubicMeterPerSecondPerAmpereUnit;

CubicMeterPerSecondPerCandela: TUnit absolute CubicMeterPerSecondPerCandelaUnit;

CubicMeterPerSecondPerCandelaPerSteradian: TUnit absolute CubicMeterPerSecondPerCandelaPerSteradianUnit;

CubicMeterPerSecondPerSteradian: TUnit absolute CubicMeterPerSecondPerSteradianUnit;

CubicMeterPerSquareAmpere: TUnit absolute CubicMeterPerSquareAmpereUnit;

CubicMeterPerSquareSecond: TUnit absolute CubicMeterPerSquareSecondUnit;

CubicMeterPerSteradian: TUnit absolute CubicMeterPerSteradianUnit;

CubicMeterSecond: TUnit absolute CubicMeterSecondUnit;

CubicMeterSecondPerMole: TUnit absolute CubicMeterSecondPerMoleUnit;

CubicMeterSteradian: TUnit absolute CubicMeterSteradianUnit;

CubicMole: TUnit absolute CubicMoleUnit;

CubicRootAmpere: TUnit absolute CubicRootAmpereUnit;

CubicRootCandela: TUnit absolute CubicRootCandelaUnit;

CubicRootKelvin: TUnit absolute CubicRootKelvinUnit;

CubicRootKilogram: TUnit absolute CubicRootKilogramUnit;

CubicRootMeter: TUnit absolute CubicRootMeterUnit;

CubicRootMole: TUnit absolute CubicRootMoleUnit;

CubicRootSecond: TUnit absolute CubicRootSecondUnit;

CubicRootSteradian: TUnit absolute CubicRootSteradianUnit;

CubicSecond: TUnit absolute CubicSecondUnit;

CubicSecondAmpere: TUnit absolute CubicSecondAmpereUnit;

CubicSecondAmperePerCubicMeter: TUnit absolute CubicSecondAmperePerCubicMeterUnit;

CubicSecondAmperePerKilogram: TUnit absolute CubicSecondAmperePerKilogramUnit;

CubicSecondAmperePerKilogramPerCubicMeter: TUnit absolute CubicSecondAmperePerKilogramPerCubicMeterUnit;

CubicSecondAmperePerKilogramPerSquareMeter: TUnit absolute CubicSecondAmperePerKilogramPerSquareMeterUnit;

CubicSecondAmperePerMeter: TUnit absolute CubicSecondAmperePerMeterUnit;

CubicSecondAmperePerSquareMeter: TUnit absolute CubicSecondAmperePerSquareMeterUnit;

CubicSecondCandela: TUnit absolute CubicSecondCandelaUnit;

CubicSecondCandelaPerKilogram: TUnit absolute CubicSecondCandelaPerKilogramUnit;

CubicSecondCandelaPerKilogramPerSquareMeter: TUnit absolute CubicSecondCandelaPerKilogramPerSquareMeterUnit;

CubicSecondCandelaPerSquareMeter: TUnit absolute CubicSecondCandelaPerSquareMeterUnit;

CubicSecondCandelaSteradian: TUnit absolute CubicSecondCandelaSteradianUnit;

CubicSecondCandelaSteradianPerKilogram: TUnit absolute CubicSecondCandelaSteradianPerKilogramUnit;

CubicSecondCandelaSteradianPerSquareMeter: TUnit absolute CubicSecondCandelaSteradianPerSquareMeterUnit;

CubicSecondKelvin: TUnit absolute CubicSecondKelvinUnit;

CubicSecondKelvinPerKilogram: TUnit absolute CubicSecondKelvinPerKilogramUnit;

CubicSecondKelvinPerMeter: TUnit absolute CubicSecondKelvinPerMeterUnit;

CubicSecondKelvinPerSquareMeter: TUnit absolute CubicSecondKelvinPerSquareMeterUnit;

CubicSecondPerCubicMeter: TUnit absolute CubicSecondPerCubicMeterUnit;

CubicSecondPerKilogram: TUnit absolute CubicSecondPerKilogramUnit;

CubicSecondPerKilogramPerCubicMeter: TUnit absolute CubicSecondPerKilogramPerCubicMeterUnit;

CubicSecondPerMeter: TUnit absolute CubicSecondPerMeterUnit;

CubicSecondPerSquareMeter: TUnit absolute CubicSecondPerSquareMeterUnit;

CubicSecondQuarticKelvin: TUnit absolute CubicSecondQuarticKelvinUnit;

CubicSecondQuarticKelvinPerKilogram: TUnit absolute CubicSecondQuarticKelvinPerKilogramUnit;

CubicSecondQuarticKelvinPerKilogramPerSquareMeter: TUnit absolute CubicSecondQuarticKelvinPerKilogramPerSquareMeterUnit;

CubicSecondQuarticKelvinPerSquareMeter: TUnit absolute CubicSecondQuarticKelvinPerSquareMeterUnit;

CubicSecondSquareAmpere: TUnit absolute CubicSecondSquareAmpereUnit;

CubicSecondSquareAmperePerCubicMeter: TUnit absolute CubicSecondSquareAmperePerCubicMeterUnit;

CubicSecondSquareAmperePerKilogram: TUnit absolute CubicSecondSquareAmperePerKilogramUnit;

CubicSecondSquareAmperePerSquareMeter: TUnit absolute CubicSecondSquareAmperePerSquareMeterUnit;

CubicSecondSteradian: TUnit absolute CubicSecondSteradianUnit;

CubicSecondSteradianPerKilogram: TUnit absolute CubicSecondSteradianPerKilogramUnit;

CubicSecondSteradianPerKilogramPerMeter: TUnit absolute CubicSecondSteradianPerKilogramPerMeterUnit;

CubicSecondSteradianPerKilogramPerSquareMeter: TUnit absolute CubicSecondSteradianPerKilogramPerSquareMeterUnit;

CubicSecondSteradianPerMeter: TUnit absolute CubicSecondSteradianPerMeterUnit;

CubicSecondSteradianPerSquareMeter: TUnit absolute CubicSecondSteradianPerSquareMeterUnit;

CubicSteradian: TUnit absolute CubicSteradianUnit;

CubicYard: TFactoredUnit absolute CubicYardUnit;

dag: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

dag2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

dalton: TFactoredUnit absolute DaltonUnit;

day: TFactoredUnit absolute DayUnit;

day2: TFactoredUnit absolute SquareDayUnit;

dB: TUnit absolute DecibelUnit;

Decibel: TUnit absolute DecibelUnit;

deg: TFactoredUnit absolute DegreeUnit;

deg2: TFactoredUnit absolute SquareDegreeUnit;

degC: TDegreeCelsiusUnit absolute DegreeCelsiusUnit;

degF: TDegreeFahrenheitUnit absolute DegreeFahrenheitUnit;

Degree: TFactoredUnit absolute DegreeUnit;

dg: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

dg2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-08);

Dioptre: TUnit absolute DioptreUnit;

Electronvolt: TFactoredUnit absolute ElectronvoltUnit;

eV: TFactoredUnit absolute ElectronvoltUnit;

F: TUnit absolute FaradUnit;

Farad: TUnit absolute FaradUnit;

FaradPerMeter: TUnit absolute FaradPerMeterUnit;

Foot: TFactoredUnit absolute FootUnit;

ft: TFactoredUnit absolute FootUnit;

ft2: TFactoredUnit absolute SquareFootUnit;

ft3: TFactoredUnit absolute CubicFootUnit;

g: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

g2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

gal: TFactoredUnit absolute GallonUnit;

Gallon: TFactoredUnit absolute GallonUnit;

Gray: TUnit absolute GrayUnit;

GrayPerSecond: TUnit absolute GrayPerSecondUnit;

Gy: TUnit absolute GrayUnit;

H: TUnit absolute HenryUnit;

Henry: TUnit absolute HenryUnit;

HenryPerMeter: TUnit absolute HenryPerMeterUnit;

Hertz: TUnit absolute HertzUnit;

hg: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-01);

hg2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

Hour: TFactoredUnit absolute HourUnit;

hr: TFactoredUnit absolute HourUnit;

hr2: TFactoredUnit absolute SquareHourUnit;

Hz: TUnit absolute HertzUnit;

Hz2: TUnit absolute SquareHertzUnit;

inch: TFactoredUnit absolute InchUnit;

inch2: TFactoredUnit absolute SquareInchUnit;

inch3: TFactoredUnit absolute CubicInchUnit;

J: TUnit absolute JouleUnit;

J2: TUnit absolute SquareJouleUnit;

Joule: TUnit absolute JouleUnit;

JoulePerCoulomb: TUnit absolute JoulePerCoulombUnit;

JoulePerCubicMeter: TUnit absolute JoulePerCubicMeterUnit;

JoulePerHertz: TUnit absolute JoulePerHertzUnit;

JoulePerKelvin: TUnit absolute JoulePerKelvinUnit;

JoulePerKilogram: TUnit absolute JoulePerKilogramUnit;

JoulePerKilogramPerKelvin: TUnit absolute JoulePerKilogramPerKelvinUnit;

JoulePerMole: TUnit absolute JoulePerMoleUnit;

JoulePerMolePerKelvin: TUnit absolute JoulePerMolePerKelvinUnit;

JoulePerRadian: TUnit absolute JoulePerRadianUnit;

JoulePerSquareMeter: TUnit absolute JoulePerSquareMeterUnit;

JoulePerSquareMeterPerHertz: TUnit absolute JoulePerSquareMeterPerHertzUnit;

JoulePerTesla: TUnit absolute JoulePerTeslaUnit;

JouleSecond: TUnit absolute JouleSecondUnit;

K: TUnit absolute KelvinUnit;

K2: TUnit absolute SquareKelvinUnit;

K3: TUnit absolute CubicKelvinUnit;

K4: TUnit absolute QuarticKelvinUnit;

kat: TUnit absolute KatalUnit;

Katal: TUnit absolute KatalUnit;

KatalPerCubicMeter: TUnit absolute KatalPerCubicMeterUnit;

Kelvin: TUnit absolute KelvinUnit;

KelvinMolePerKilogram: TUnit absolute KelvinMolePerKilogramUnit;

KelvinMolePerKilogramPerSquareMeter: TUnit absolute KelvinMolePerKilogramPerSquareMeterUnit;

KelvinMolePerSquareMeter: TUnit absolute KelvinMolePerSquareMeterUnit;

KelvinPerKilogram: TUnit absolute KelvinPerKilogramUnit;

KelvinPerKilogramPerMeter: TUnit absolute KelvinPerKilogramPerMeterUnit;

KelvinPerKilogramPerSquareMeter: TUnit absolute KelvinPerKilogramPerSquareMeterUnit;

KelvinPerMeter: TUnit absolute KelvinPerMeterUnit;

KelvinPerSquareMeter: TUnit absolute KelvinPerSquareMeterUnit;

KelvinPerWatt: TUnit absolute KelvinPerWattUnit;

kg: TUnit absolute KilogramUnit;

kg2: TUnit absolute SquareKilogramUnit;

Kilogram: TUnit absolute KilogramUnit;

KilogramCubicMeter: TUnit absolute KilogramCubicMeterUnit;

KilogramCubicMeterPerAmpere: TUnit absolute KilogramCubicMeterPerAmpereUnit;

KilogramCubicMeterPerCubicSecond: TUnit absolute KilogramCubicMeterPerCubicSecondUnit;

KilogramCubicMeterPerQuarticSecond: TUnit absolute KilogramCubicMeterPerQuarticSecondUnit;

KilogramCubicMeterPerSquareAmpere: TUnit absolute KilogramCubicMeterPerSquareAmpereUnit;

KilogramCubicMeterPerSquareSecond: TUnit absolute KilogramCubicMeterPerSquareSecondUnit;

KilogramKelvin: TUnit absolute KilogramKelvinUnit;

KilogramMeter: TUnit absolute KilogramMeterUnit;

KilogramMeterPerAmpere: TUnit absolute KilogramMeterPerAmpereUnit;

KilogramMeterPerCubicSecond: TUnit absolute KilogramMeterPerCubicSecondUnit;

KilogramMeterPerCubicSecondPerKelvin: TUnit absolute KilogramMeterPerCubicSecondPerKelvinUnit;

KilogramMeterPerKelvin: TUnit absolute KilogramMeterPerKelvinUnit;

KilogramMeterPerQuarticSecond: TUnit absolute KilogramMeterPerQuarticSecondUnit;

KilogramMeterPerSecond: TUnit absolute KilogramMeterPerSecondUnit;

KilogramMeterPerSquareAmpere: TUnit absolute KilogramMeterPerSquareAmpereUnit;

KilogramMeterPerSquareSecond: TUnit absolute KilogramMeterPerSquareSecondUnit;

KilogramMeterPerSteradian: TUnit absolute KilogramMeterPerSteradianUnit;

KilogramPerAmpere: TUnit absolute KilogramPerAmpereUnit;

KilogramPerAmperePerSquareSecond: TUnit absolute KilogramPerAmperePerSquareSecondUnit;

KilogramPerCandela: TUnit absolute KilogramPerCandelaUnit;

KilogramPerCandelaPerSteradian: TUnit absolute KilogramPerCandelaPerSteradianUnit;

KilogramPerCubicMeter: TUnit absolute KilogramPerCubicMeterUnit;

KilogramPerCubicSecond: TUnit absolute KilogramPerCubicSecondUnit;

KilogramPerCubicSecondPerAmpere: TUnit absolute KilogramPerCubicSecondPerAmpereUnit;

KilogramPerCubicSecondPerCandela: TUnit absolute KilogramPerCubicSecondPerCandelaUnit;

KilogramPerCubicSecondPerCandelaPerSteradian: TUnit absolute KilogramPerCubicSecondPerCandelaPerSteradianUnit;

KilogramPerCubicSecondPerKelvin: TUnit absolute KilogramPerCubicSecondPerKelvinUnit;

KilogramPerCubicSecondPerSquareAmpere: TUnit absolute KilogramPerCubicSecondPerSquareAmpereUnit;

KilogramPerKelvin: TUnit absolute KilogramPerKelvinUnit;

KilogramPerKelvinPerMole: TUnit absolute KilogramPerKelvinPerMoleUnit;

KilogramPerMeter: TUnit absolute KilogramPerMeterUnit;

KilogramPerMeterPerSecond: TUnit absolute KilogramPerMeterPerSecondUnit;

KilogramPerMeterPerSquareSecond: TUnit absolute KilogramPerMeterPerSquareSecondUnit;

KilogramPerMeterPerSteradian: TUnit absolute KilogramPerMeterPerSteradianUnit;

KilogramPerMole: TUnit absolute KilogramPerMoleUnit;

KilogramPerQuarticKelvin: TUnit absolute KilogramPerQuarticKelvinUnit;

KilogramPerQuarticMeter: TUnit absolute KilogramPerQuarticMeterUnit;

KilogramPerQuarticMeterPerSecond: TUnit absolute KilogramPerQuarticMeterPerSecondUnit;

KilogramPerQuarticSecond: TUnit absolute KilogramPerQuarticSecondUnit;

KilogramPerQuarticSecondPerAmpere: TUnit absolute KilogramPerQuarticSecondPerAmpereUnit;

KilogramPerQuarticSecondPerSquareAmpere: TUnit absolute KilogramPerQuarticSecondPerSquareAmpereUnit;

KilogramPerSecond: TUnit absolute KilogramPerSecondUnit;

KilogramPerSecondPerAmpere: TUnit absolute KilogramPerSecondPerAmpereUnit;

KilogramPerSquareAmpere: TUnit absolute KilogramPerSquareAmpereUnit;

KilogramPerSquareMeter: TUnit absolute KilogramPerSquareMeterUnit;

KilogramPerSquareMeterPerSquareSecond: TUnit absolute KilogramPerSquareMeterPerSquareSecondUnit;

KilogramPerSquareSecond: TUnit absolute KilogramPerSquareSecondUnit;

KilogramPerSquareSecondPerKelvin: TUnit absolute KilogramPerSquareSecondPerKelvinUnit;

KilogramPerSquareSecondPerKelvinPerMole: TUnit absolute KilogramPerSquareSecondPerKelvinPerMoleUnit;

KilogramPerSquareSecondPerMole: TUnit absolute KilogramPerSquareSecondPerMoleUnit;

KilogramPerSteradian: TUnit absolute KilogramPerSteradianUnit;

KilogramQuarticMeter: TUnit absolute KilogramQuarticMeterUnit;

KilogramQuarticMeterPerSquareSecond: TUnit absolute KilogramQuarticMeterPerSquareSecondUnit;

KilogramSquareMeter: TUnit absolute KilogramSquareMeterUnit;

KilogramSquareMeterPerAmpere: TUnit absolute KilogramSquareMeterPerAmpereUnit;

KilogramSquareMeterPerAmperePerCubicSecond: TUnit absolute KilogramSquareMeterPerAmperePerCubicSecondUnit;

KilogramSquareMeterPerAmperePerSquareSecond: TUnit absolute KilogramSquareMeterPerAmperePerSquareSecondUnit;

KilogramSquareMeterPerCandela: TUnit absolute KilogramSquareMeterPerCandelaUnit;

KilogramSquareMeterPerCandelaPerSteradian: TUnit absolute KilogramSquareMeterPerCandelaPerSteradianUnit;

KilogramSquareMeterPerCubicSecond: TUnit absolute KilogramSquareMeterPerCubicSecondUnit;

KilogramSquareMeterPerCubicSecondPerCandela: TUnit absolute KilogramSquareMeterPerCubicSecondPerCandelaUnit;

KilogramSquareMeterPerCubicSecondPerCandelaPerSteradian: TUnit absolute KilogramSquareMeterPerCubicSecondPerCandelaPerSteradianUnit;

KilogramSquareMeterPerCubicSecondPerKelvin: TUnit absolute KilogramSquareMeterPerCubicSecondPerKelvinUnit;

KilogramSquareMeterPerKelvin: TUnit absolute KilogramSquareMeterPerKelvinUnit;

KilogramSquareMeterPerKelvinPerMole: TUnit absolute KilogramSquareMeterPerKelvinPerMoleUnit;

KilogramSquareMeterPerMole: TUnit absolute KilogramSquareMeterPerMoleUnit;

KilogramSquareMeterPerQuarticKelvin: TUnit absolute KilogramSquareMeterPerQuarticKelvinUnit;

KilogramSquareMeterPerQuarticSecond: TUnit absolute KilogramSquareMeterPerQuarticSecondUnit;

KilogramSquareMeterPerQuarticSecondPerSquareAmpere: TUnit absolute KilogramSquareMeterPerQuarticSecondPerSquareAmpereUnit;

KilogramSquareMeterPerSecond: TUnit absolute KilogramSquareMeterPerSecondUnit;

KilogramSquareMeterPerSquareAmpere: TUnit absolute KilogramSquareMeterPerSquareAmpereUnit;

KilogramSquareMeterPerSquareAmperePerCubicSecond: TUnit absolute KilogramSquareMeterPerSquareAmperePerCubicSecondUnit;

KilogramSquareMeterPerSquareAmperePerSquareSecond: TUnit absolute KilogramSquareMeterPerSquareAmperePerSquareSecondUnit;

KilogramSquareMeterPerSquareSecond: TUnit absolute KilogramSquareMeterPerSquareSecondUnit;

KilogramSquareMeterPerSquareSecondPerKelvin: TUnit absolute KilogramSquareMeterPerSquareSecondPerKelvinUnit;

KilogramSquareMeterPerSquareSecondPerRadian: TUnit absolute KilogramSquareMeterPerSquareSecondPerRadianUnit;

KilogramSquareMeterPerSteradian: TUnit absolute KilogramSquareMeterPerSteradianUnit;

KilogramSquareSecond: TUnit absolute KilogramSquareSecondUnit;

KilogramSquareSecondPerCubicMeter: TUnit absolute KilogramSquareSecondPerCubicMeterUnit;

KilogramSquareSecondPerMeter: TUnit absolute KilogramSquareSecondPerMeterUnit;

L: TFactoredUnit absolute LitreUnit;

lb: TFactoredUnit absolute PoundUnit;

lbf: TFactoredUnit absolute PoundForceUnit;

LightYear: TFactoredUnit absolute LightYearUnit;

Litre: TFactoredUnit absolute LitreUnit;

lm: TUnit absolute LumenUnit;

Lumen: TUnit absolute LumenUnit;

LumenPerWatt: TUnit absolute LumenPerWattUnit;

LumenSecond: TUnit absolute LumenSecondUnit;

LumenSecondPerCubicMeter: TUnit absolute LumenSecondPerCubicMeterUnit;

Lux: TUnit absolute LuxUnit;

LuxSecond: TUnit absolute LuxSecondUnit;

lx: TUnit absolute LuxUnit;

ly: TFactoredUnit absolute LightYearUnit;

m: TUnit absolute MeterUnit;

m2: TUnit absolute SquareMeterUnit;

m3: TUnit absolute CubicMeterUnit;

m4: TUnit absolute QuarticMeterUnit;

m5: TUnit absolute QuinticMeterUnit;

m6: TUnit absolute SexticMeterUnit;

Meter: TUnit absolute MeterUnit;

MeterAmpere: TUnit absolute MeterAmpereUnit;

MeterCubicSecond: TUnit absolute MeterCubicSecondUnit;

MeterCubicSecondPerKilogram: TUnit absolute MeterCubicSecondPerKilogramUnit;

MeterCubicSecondSteradian: TUnit absolute MeterCubicSecondSteradianUnit;

MeterCubicSecondSteradianPerKilogram: TUnit absolute MeterCubicSecondSteradianPerKilogramUnit;

MeterKelvin: TUnit absolute MeterKelvinUnit;

MeterKelvinPerWatt: TUnit absolute MeterKelvinPerWattUnit;

MeterPerAmpere: TUnit absolute MeterPerAmpereUnit;

MeterPerCubicSecond: TUnit absolute MeterPerCubicSecondUnit;

MeterPerCubicSecondPerAmpere: TUnit absolute MeterPerCubicSecondPerAmpereUnit;

MeterPerCubicSecondPerKelvin: TUnit absolute MeterPerCubicSecondPerKelvinUnit;

MeterPerCubicSecondPerSteradian: TUnit absolute MeterPerCubicSecondPerSteradianUnit;

MeterPerKelvin: TUnit absolute MeterPerKelvinUnit;

MeterPerKilogram: TUnit absolute MeterPerKilogramUnit;

MeterPerKilogramPerSquareSecond: TUnit absolute MeterPerKilogramPerSquareSecondUnit;

MeterPerQuarticSecond: TUnit absolute MeterPerQuarticSecondUnit;

MeterPerQuarticSecondPerSquareAmpere: TUnit absolute MeterPerQuarticSecondPerSquareAmpereUnit;

MeterPerQuinticSecond: TUnit absolute MeterPerQuinticSecondUnit;

MeterPerSecond: TUnit absolute MeterPerSecondUnit;

MeterPerSecondPerAmpere: TUnit absolute MeterPerSecondPerAmpereUnit;

MeterPerSecondPerSecond: TUnit absolute MeterPerSecondPerSecondUnit;

MeterPerSexticSecond: TUnit absolute MeterPerSexticSecondUnit;

MeterPerSquareAmpere: TUnit absolute MeterPerSquareAmpereUnit;

MeterPerSquareKilogram: TUnit absolute MeterPerSquareKilogramUnit;

MeterPerSquareSecond: TUnit absolute MeterPerSquareSecondUnit;

MeterPerSquareSecondPerAmpere: TUnit absolute MeterPerSquareSecondPerAmpereUnit;

MeterPerSquareSecondPerSquareAmpere: TUnit absolute MeterPerSquareSecondPerSquareAmpereUnit;

MeterPerSteradian: TUnit absolute MeterPerSteradianUnit;

MeterPerVolt: TUnit absolute MeterPerVoltUnit;

MeterPerWatt: TUnit absolute MeterPerWattUnit;

MeterSecond: TUnit absolute MeterSecondUnit;

MeterSecondPerKilogram: TUnit absolute MeterSecondPerKilogramUnit;

MeterSquareSecond: TUnit absolute MeterSquareSecondUnit;

MeterSteradian: TUnit absolute MeterSteradianUnit;

MeterSteradianPerKilogram: TUnit absolute MeterSteradianPerKilogramUnit;

mg: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mg2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

mi: TFactoredUnit absolute MileUnit;

mi2: TFactoredUnit absolute SquareMileUnit;

mig: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

mig2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

Mile: TFactoredUnit absolute MileUnit;

minute: TFactoredUnit absolute MinuteUnit;

minute2: TFactoredUnit absolute SquareMinuteUnit;

mol: TUnit absolute MoleUnit;

Mole: TUnit absolute MoleUnit;

MoleKelvin: TUnit absolute MoleKelvinUnit;

MolePerAmpere: TUnit absolute MolePerAmpereUnit;

MolePerCubicMeter: TUnit absolute MolePerCubicMeterUnit;

MolePerKilogram: TUnit absolute MolePerKilogramUnit;

MolePerKilogramPerSquareMeter: TUnit absolute MolePerKilogramPerSquareMeterUnit;

MolePerSecond: TUnit absolute MolePerSecondUnit;

MolePerSecondPerAmpere: TUnit absolute MolePerSecondPerAmpereUnit;

MolePerSquareMeter: TUnit absolute MolePerSquareMeterUnit;

N: TUnit absolute NewtonUnit;

N2: TUnit absolute SquareNewtonUnit;

NauticalMile: TFactoredUnit absolute NauticalMileUnit;

Newton: TUnit absolute NewtonUnit;

NewtonCubicMeter: TUnit absolute NewtonCubicMeterUnit;

NewtonMeter: TUnit absolute NewtonMeterUnit;

NewtonMeterPerRadian: TUnit absolute NewtonMeterPerRadianUnit;

NewtonMeterSecond: TUnit absolute NewtonMeterSecondUnit;

NewtonPerAmpere: TUnit absolute NewtonPerAmpereUnit;

NewtonPerCoulomb: TUnit absolute NewtonPerCoulombUnit;

NewtonPerCubicMeter: TUnit absolute NewtonPerCubicMeterUnit;

NewtonPerMeter: TUnit absolute NewtonPerMeterUnit;

NewtonPerSquareAmpere: TUnit absolute NewtonPerSquareAmpereUnit;

NewtonPerSquareCoulomb: TUnit absolute NewtonPerSquareCoulombUnit;

NewtonPerSquareKilogram: TUnit absolute NewtonPerSquareKilogramUnit;

NewtonPerSquareMeter: TUnit absolute NewtonPerSquareMeterUnit;

NewtonRadian: TUnit absolute NewtonRadianUnit;

NewtonSecond: TUnit absolute NewtonSecondUnit;

NewtonSquareMeter: TUnit absolute NewtonSquareMeterUnit;

NewtonSquareMeterPerCoulomb: TUnit absolute NewtonSquareMeterPerCoulombUnit;

NewtonSquareMeterPerSquareCoulomb: TUnit absolute NewtonSquareMeterPerSquareCoulombUnit;

NewtonSquareMeterPerSquareKilogram: TUnit absolute NewtonSquareMeterPerSquareKilogramUnit;

ng: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

ng2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

nmi: TFactoredUnit absolute NauticalMileUnit;

ohm: TUnit absolute OhmUnit;

OhmMeter: TUnit absolute OhmMeterUnit;

Ounce: TFactoredUnit absolute OunceUnit;

oz: TFactoredUnit absolute OunceUnit;

Pa: TUnit absolute PascalUnit;

parsec: TFactoredUnit absolute ParsecUnit;

Pascal: TUnit absolute PascalUnit;

PascalPerMeter: TUnit absolute PascalPerMeterUnit;

PascalSecond: TUnit absolute PascalSecondUnit;

pg: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-15);

pg2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-30);

Pl: TUnit absolute PoiseuilleUnit;

Poiseuille: TUnit absolute PoiseuilleUnit;

Pound: TFactoredUnit absolute PoundUnit;

PoundForce: TFactoredUnit absolute PoundForceUnit;

PoundPerSquareInch: TFactoredUnit absolute PoundPerSquareInchUnit;

psi: TFactoredUnit absolute PoundPerSquareInchUnit;

QuarticAmpere: TUnit absolute QuarticAmpereUnit;

QuarticCandela: TUnit absolute QuarticCandelaUnit;

QuarticKelvin: TUnit absolute QuarticKelvinUnit;

QuarticKelvinPerKilogram: TUnit absolute QuarticKelvinPerKilogramUnit;

QuarticKelvinPerKilogramPerSquareMeter: TUnit absolute QuarticKelvinPerKilogramPerSquareMeterUnit;

QuarticKelvinPerSquareMeter: TUnit absolute QuarticKelvinPerSquareMeterUnit;

QuarticKilogram: TUnit absolute QuarticKilogramUnit;

QuarticMeter: TUnit absolute QuarticMeterUnit;

QuarticMeterPerKilogram: TUnit absolute QuarticMeterPerKilogramUnit;

QuarticMeterPerQuarticSecond: TUnit absolute QuarticMeterPerQuarticSecondUnit;

QuarticMeterPerSexticSecond: TUnit absolute QuarticMeterPerSexticSecondUnit;

QuarticMeterPerSexticSecondPerSquareAmpere: TUnit absolute QuarticMeterPerSexticSecondPerSquareAmpereUnit;

QuarticMeterPerSquareAmpere: TUnit absolute QuarticMeterPerSquareAmpereUnit;

QuarticMeterPerSquareSecond: TUnit absolute QuarticMeterPerSquareSecondUnit;

QuarticMeterSecond: TUnit absolute QuarticMeterSecondUnit;

QuarticMeterSecondPerKilogram: TUnit absolute QuarticMeterSecondPerKilogramUnit;

QuarticMole: TUnit absolute QuarticMoleUnit;

QuarticRootAmpere: TUnit absolute QuarticRootAmpereUnit;

QuarticRootCandela: TUnit absolute QuarticRootCandelaUnit;

QuarticRootCubicAmpere: TUnit absolute QuarticRootCubicAmpereUnit;

QuarticRootCubicCandela: TUnit absolute QuarticRootCubicCandelaUnit;

QuarticRootCubicKelvin: TUnit absolute QuarticRootCubicKelvinUnit;

QuarticRootCubicKilogram: TUnit absolute QuarticRootCubicKilogramUnit;

QuarticRootCubicMeter: TUnit absolute QuarticRootCubicMeterUnit;

QuarticRootCubicMole: TUnit absolute QuarticRootCubicMoleUnit;

QuarticRootCubicSecond: TUnit absolute QuarticRootCubicSecondUnit;

QuarticRootCubicSteradian: TUnit absolute QuarticRootCubicSteradianUnit;

QuarticRootKelvin: TUnit absolute QuarticRootKelvinUnit;

QuarticRootKilogram: TUnit absolute QuarticRootKilogramUnit;

QuarticRootMeter: TUnit absolute QuarticRootMeterUnit;

QuarticRootMole: TUnit absolute QuarticRootMoleUnit;

QuarticRootSecond: TUnit absolute QuarticRootSecondUnit;

QuarticRootSteradian: TUnit absolute QuarticRootSteradianUnit;

QuarticSecond: TUnit absolute QuarticSecondUnit;

QuarticSecondAmpere: TUnit absolute QuarticSecondAmpereUnit;

QuarticSecondAmperePerCubicMeter: TUnit absolute QuarticSecondAmperePerCubicMeterUnit;

QuarticSecondAmperePerKilogram: TUnit absolute QuarticSecondAmperePerKilogramUnit;

QuarticSecondAmperePerKilogramPerCubicMeter: TUnit absolute QuarticSecondAmperePerKilogramPerCubicMeterUnit;

QuarticSecondPerCubicMeter: TUnit absolute QuarticSecondPerCubicMeterUnit;

QuarticSecondPerKilogram: TUnit absolute QuarticSecondPerKilogramUnit;

QuarticSecondPerKilogramPerCubicMeter: TUnit absolute QuarticSecondPerKilogramPerCubicMeterUnit;

QuarticSecondPerKilogramPerMeter: TUnit absolute QuarticSecondPerKilogramPerMeterUnit;

QuarticSecondPerKilogramPerSquareMeter: TUnit absolute QuarticSecondPerKilogramPerSquareMeterUnit;

QuarticSecondPerMeter: TUnit absolute QuarticSecondPerMeterUnit;

QuarticSecondPerQuarticMeter: TUnit absolute QuarticSecondPerQuarticMeterUnit;

QuarticSecondPerSquareKilogram: TUnit absolute QuarticSecondPerSquareKilogramUnit;

QuarticSecondPerSquareKilogramPerQuarticMeter: TUnit absolute QuarticSecondPerSquareKilogramPerQuarticMeterUnit;

QuarticSecondPerSquareKilogramPerSquareMeter: TUnit absolute QuarticSecondPerSquareKilogramPerSquareMeterUnit;

QuarticSecondPerSquareMeter: TUnit absolute QuarticSecondPerSquareMeterUnit;

QuarticSecondSquareAmpere: TUnit absolute QuarticSecondSquareAmpereUnit;

QuarticSecondSquareAmperePerCubicMeter: TUnit absolute QuarticSecondSquareAmperePerCubicMeterUnit;

QuarticSecondSquareAmperePerKilogram: TUnit absolute QuarticSecondSquareAmperePerKilogramUnit;

QuarticSecondSquareAmperePerKilogramPerMeter: TUnit absolute QuarticSecondSquareAmperePerKilogramPerMeterUnit;

QuarticSecondSquareAmperePerMeter: TUnit absolute QuarticSecondSquareAmperePerMeterUnit;

QuarticSecondSquareAmperePerSquareMeter: TUnit absolute QuarticSecondSquareAmperePerSquareMeterUnit;

QuarticSteradian: TUnit absolute QuarticSteradianUnit;

QuinticAmpere: TUnit absolute QuinticAmpereUnit;

QuinticCandela: TUnit absolute QuinticCandelaUnit;

QuinticKelvin: TUnit absolute QuinticKelvinUnit;

QuinticKilogram: TUnit absolute QuinticKilogramUnit;

QuinticMeter: TUnit absolute QuinticMeterUnit;

QuinticMole: TUnit absolute QuinticMoleUnit;

QuinticRootAmpere: TUnit absolute QuinticRootAmpereUnit;

QuinticRootCandela: TUnit absolute QuinticRootCandelaUnit;

QuinticRootKelvin: TUnit absolute QuinticRootKelvinUnit;

QuinticRootKilogram: TUnit absolute QuinticRootKilogramUnit;

QuinticRootMeter: TUnit absolute QuinticRootMeterUnit;

QuinticRootMole: TUnit absolute QuinticRootMoleUnit;

QuinticRootSecond: TUnit absolute QuinticRootSecondUnit;

QuinticRootSteradian: TUnit absolute QuinticRootSteradianUnit;

QuinticSecond: TUnit absolute QuinticSecondUnit;

QuinticSecondPerMeter: TUnit absolute QuinticSecondPerMeterUnit;

QuinticSteradian: TUnit absolute QuinticSteradianUnit;

rad: TUnit absolute RadianUnit;

Radian: TUnit absolute RadianUnit;

RadianPerMeter: TUnit absolute RadianPerMeterUnit;

RadianPerSecond: TUnit absolute RadianPerSecondUnit;

RadianPerSquareSecond: TUnit absolute RadianPerSquareSecondUnit;

ReciprocalAmpere: TUnit absolute ReciprocalAmpereUnit;

ReciprocalCandela: TUnit absolute ReciprocalCandelaUnit;

ReciprocalCandelaSteradian: TUnit absolute ReciprocalCandelaSteradianUnit;

ReciprocalCubicAmpere: TUnit absolute ReciprocalCubicAmpereUnit;

ReciprocalCubicCandela: TUnit absolute ReciprocalCubicCandelaUnit;

ReciprocalCubicKelvin: TUnit absolute ReciprocalCubicKelvinUnit;

ReciprocalCubicKilogram: TUnit absolute ReciprocalCubicKilogramUnit;

ReciprocalCubicMeter: TUnit absolute ReciprocalCubicMeterUnit;

ReciprocalCubicMeterSecond: TUnit absolute ReciprocalCubicMeterSecondUnit;

ReciprocalCubicMeterSteradian: TUnit absolute ReciprocalCubicMeterSteradianUnit;

ReciprocalCubicMole: TUnit absolute ReciprocalCubicMoleUnit;

ReciprocalCubicRootAmpere: TUnit absolute ReciprocalCubicRootAmpereUnit;

ReciprocalCubicRootCandela: TUnit absolute ReciprocalCubicRootCandelaUnit;

ReciprocalCubicRootKelvin: TUnit absolute ReciprocalCubicRootKelvinUnit;

ReciprocalCubicRootKilogram: TUnit absolute ReciprocalCubicRootKilogramUnit;

ReciprocalCubicRootMeter: TUnit absolute ReciprocalCubicRootMeterUnit;

ReciprocalCubicRootMole: TUnit absolute ReciprocalCubicRootMoleUnit;

ReciprocalCubicRootSecond: TUnit absolute ReciprocalCubicRootSecondUnit;

ReciprocalCubicRootSteradian: TUnit absolute ReciprocalCubicRootSteradianUnit;

ReciprocalCubicSecond: TUnit absolute ReciprocalCubicSecondUnit;

ReciprocalCubicSecondAmpere: TUnit absolute ReciprocalCubicSecondAmpereUnit;

ReciprocalCubicSecondCandela: TUnit absolute ReciprocalCubicSecondCandelaUnit;

ReciprocalCubicSecondCandelaSteradian: TUnit absolute ReciprocalCubicSecondCandelaSteradianUnit;

ReciprocalCubicSecondKelvin: TUnit absolute ReciprocalCubicSecondKelvinUnit;

ReciprocalCubicSecondQuarticKelvin: TUnit absolute ReciprocalCubicSecondQuarticKelvinUnit;

ReciprocalCubicSecondSquareAmpere: TUnit absolute ReciprocalCubicSecondSquareAmpereUnit;

ReciprocalCubicSecondSteradian: TUnit absolute ReciprocalCubicSecondSteradianUnit;

ReciprocalCubicSteradian: TUnit absolute ReciprocalCubicSteradianUnit;

ReciprocalHenry: TUnit absolute ReciprocalHenryUnit;

ReciprocalKelvin: TUnit absolute ReciprocalKelvinUnit;

ReciprocalKelvinMole: TUnit absolute ReciprocalKelvinMoleUnit;

ReciprocalKilogram: TUnit absolute ReciprocalKilogramUnit;

ReciprocalKilogramCubicMeter: TUnit absolute ReciprocalKilogramCubicMeterUnit;

ReciprocalKilogramKelvin: TUnit absolute ReciprocalKilogramKelvinUnit;

ReciprocalKilogramMeter: TUnit absolute ReciprocalKilogramMeterUnit;

ReciprocalKilogramQuarticMeter: TUnit absolute ReciprocalKilogramQuarticMeterUnit;

ReciprocalKilogramSquareMeter: TUnit absolute ReciprocalKilogramSquareMeterUnit;

ReciprocalKilogramSquareSecond: TUnit absolute ReciprocalKilogramSquareSecondUnit;

ReciprocalMeter: TUnit absolute ReciprocalMeterUnit;

ReciprocalMeterAmpere: TUnit absolute ReciprocalMeterAmpereUnit;

ReciprocalMeterCubicSecond: TUnit absolute ReciprocalMeterCubicSecondUnit;

ReciprocalMeterCubicSecondSteradian: TUnit absolute ReciprocalMeterCubicSecondSteradianUnit;

ReciprocalMeterKelvin: TUnit absolute ReciprocalMeterKelvinUnit;

ReciprocalMeterSecond: TUnit absolute ReciprocalMeterSecondUnit;

ReciprocalMeterSecondAmpere: TUnit absolute ReciprocalMeterSecondAmpereUnit;

ReciprocalMeterSquareSecond: TUnit absolute ReciprocalMeterSquareSecondUnit;

ReciprocalMeterSteradian: TUnit absolute ReciprocalMeterSteradianUnit;

ReciprocalMole: TUnit absolute ReciprocalMoleUnit;

ReciprocalNewton: TUnit absolute ReciprocalNewtonUnit;

ReciprocalPascal: TUnit absolute ReciprocalPascalUnit;

ReciprocalQuarticAmpere: TUnit absolute ReciprocalQuarticAmpereUnit;

ReciprocalQuarticCandela: TUnit absolute ReciprocalQuarticCandelaUnit;

ReciprocalQuarticKelvin: TUnit absolute ReciprocalQuarticKelvinUnit;

ReciprocalQuarticKilogram: TUnit absolute ReciprocalQuarticKilogramUnit;

ReciprocalQuarticMeter: TUnit absolute ReciprocalQuarticMeterUnit;

ReciprocalQuarticMeterSecond: TUnit absolute ReciprocalQuarticMeterSecondUnit;

ReciprocalQuarticMole: TUnit absolute ReciprocalQuarticMoleUnit;

ReciprocalQuarticRootAmpere: TUnit absolute ReciprocalQuarticRootAmpereUnit;

ReciprocalQuarticRootCandela: TUnit absolute ReciprocalQuarticRootCandelaUnit;

ReciprocalQuarticRootCubicAmpere: TUnit absolute ReciprocalQuarticRootCubicAmpereUnit;

ReciprocalQuarticRootCubicCandela: TUnit absolute ReciprocalQuarticRootCubicCandelaUnit;

ReciprocalQuarticRootCubicKelvin: TUnit absolute ReciprocalQuarticRootCubicKelvinUnit;

ReciprocalQuarticRootCubicKilogram: TUnit absolute ReciprocalQuarticRootCubicKilogramUnit;

ReciprocalQuarticRootCubicMeter: TUnit absolute ReciprocalQuarticRootCubicMeterUnit;

ReciprocalQuarticRootCubicMole: TUnit absolute ReciprocalQuarticRootCubicMoleUnit;

ReciprocalQuarticRootCubicSecond: TUnit absolute ReciprocalQuarticRootCubicSecondUnit;

ReciprocalQuarticRootCubicSteradian: TUnit absolute ReciprocalQuarticRootCubicSteradianUnit;

ReciprocalQuarticRootKelvin: TUnit absolute ReciprocalQuarticRootKelvinUnit;

ReciprocalQuarticRootKilogram: TUnit absolute ReciprocalQuarticRootKilogramUnit;

ReciprocalQuarticRootMeter: TUnit absolute ReciprocalQuarticRootMeterUnit;

ReciprocalQuarticRootMole: TUnit absolute ReciprocalQuarticRootMoleUnit;

ReciprocalQuarticRootSecond: TUnit absolute ReciprocalQuarticRootSecondUnit;

ReciprocalQuarticRootSteradian: TUnit absolute ReciprocalQuarticRootSteradianUnit;

ReciprocalQuarticSecond: TUnit absolute ReciprocalQuarticSecondUnit;

ReciprocalQuarticSecondAmpere: TUnit absolute ReciprocalQuarticSecondAmpereUnit;

ReciprocalQuarticSecondSquareAmpere: TUnit absolute ReciprocalQuarticSecondSquareAmpereUnit;

ReciprocalQuarticSteradian: TUnit absolute ReciprocalQuarticSteradianUnit;

ReciprocalQuinticAmpere: TUnit absolute ReciprocalQuinticAmpereUnit;

ReciprocalQuinticCandela: TUnit absolute ReciprocalQuinticCandelaUnit;

ReciprocalQuinticKelvin: TUnit absolute ReciprocalQuinticKelvinUnit;

ReciprocalQuinticKilogram: TUnit absolute ReciprocalQuinticKilogramUnit;

ReciprocalQuinticMeter: TUnit absolute ReciprocalQuinticMeterUnit;

ReciprocalQuinticMole: TUnit absolute ReciprocalQuinticMoleUnit;

ReciprocalQuinticRootAmpere: TUnit absolute ReciprocalQuinticRootAmpereUnit;

ReciprocalQuinticRootCandela: TUnit absolute ReciprocalQuinticRootCandelaUnit;

ReciprocalQuinticRootKelvin: TUnit absolute ReciprocalQuinticRootKelvinUnit;

ReciprocalQuinticRootKilogram: TUnit absolute ReciprocalQuinticRootKilogramUnit;

ReciprocalQuinticRootMeter: TUnit absolute ReciprocalQuinticRootMeterUnit;

ReciprocalQuinticRootMole: TUnit absolute ReciprocalQuinticRootMoleUnit;

ReciprocalQuinticRootSecond: TUnit absolute ReciprocalQuinticRootSecondUnit;

ReciprocalQuinticRootSteradian: TUnit absolute ReciprocalQuinticRootSteradianUnit;

ReciprocalQuinticSecond: TUnit absolute ReciprocalQuinticSecondUnit;

ReciprocalQuinticSteradian: TUnit absolute ReciprocalQuinticSteradianUnit;

ReciprocalRadian: TUnit absolute ReciprocalRadianUnit;

ReciprocalSecond: TUnit absolute ReciprocalSecondUnit;

ReciprocalSecondAmpere: TUnit absolute ReciprocalSecondAmpereUnit;

ReciprocalSecondCandela: TUnit absolute ReciprocalSecondCandelaUnit;

ReciprocalSecondCandelaSteradian: TUnit absolute ReciprocalSecondCandelaSteradianUnit;

ReciprocalSecondSteradian: TUnit absolute ReciprocalSecondSteradianUnit;

ReciprocalSexticAmpere: TUnit absolute ReciprocalSexticAmpereUnit;

ReciprocalSexticCandela: TUnit absolute ReciprocalSexticCandelaUnit;

ReciprocalSexticKelvin: TUnit absolute ReciprocalSexticKelvinUnit;

ReciprocalSexticKilogram: TUnit absolute ReciprocalSexticKilogramUnit;

ReciprocalSexticMeter: TUnit absolute ReciprocalSexticMeterUnit;

ReciprocalSexticMole: TUnit absolute ReciprocalSexticMoleUnit;

ReciprocalSexticRootAmpere: TUnit absolute ReciprocalSexticRootAmpereUnit;

ReciprocalSexticRootCandela: TUnit absolute ReciprocalSexticRootCandelaUnit;

ReciprocalSexticRootKelvin: TUnit absolute ReciprocalSexticRootKelvinUnit;

ReciprocalSexticRootKilogram: TUnit absolute ReciprocalSexticRootKilogramUnit;

ReciprocalSexticRootMeter: TUnit absolute ReciprocalSexticRootMeterUnit;

ReciprocalSexticRootMole: TUnit absolute ReciprocalSexticRootMoleUnit;

ReciprocalSexticRootSecond: TUnit absolute ReciprocalSexticRootSecondUnit;

ReciprocalSexticRootSteradian: TUnit absolute ReciprocalSexticRootSteradianUnit;

ReciprocalSexticSecond: TUnit absolute ReciprocalSexticSecondUnit;

ReciprocalSexticSecondSquareAmpere: TUnit absolute ReciprocalSexticSecondSquareAmpereUnit;

ReciprocalSexticSteradian: TUnit absolute ReciprocalSexticSteradianUnit;

ReciprocalSquareAmpere: TUnit absolute ReciprocalSquareAmpereUnit;

ReciprocalSquareCandela: TUnit absolute ReciprocalSquareCandelaUnit;

ReciprocalSquareKelvin: TUnit absolute ReciprocalSquareKelvinUnit;

ReciprocalSquareKilogram: TUnit absolute ReciprocalSquareKilogramUnit;

ReciprocalSquareKilogramQuarticMeter: TUnit absolute ReciprocalSquareKilogramQuarticMeterUnit;

ReciprocalSquareKilogramSquareMeter: TUnit absolute ReciprocalSquareKilogramSquareMeterUnit;

ReciprocalSquareMeter: TUnit absolute ReciprocalSquareMeterUnit;

ReciprocalSquareMeterAmpere: TUnit absolute ReciprocalSquareMeterAmpereUnit;

ReciprocalSquareMeterKelvin: TUnit absolute ReciprocalSquareMeterKelvinUnit;

ReciprocalSquareMeterQuarticKelvin: TUnit absolute ReciprocalSquareMeterQuarticKelvinUnit;

ReciprocalSquareMeterSquareSecond: TUnit absolute ReciprocalSquareMeterSquareSecondUnit;

ReciprocalSquareMeterSteradian: TUnit absolute ReciprocalSquareMeterSteradianUnit;

ReciprocalSquareMole: TUnit absolute ReciprocalSquareMoleUnit;

ReciprocalSquareRootAmpere: TUnit absolute ReciprocalSquareRootAmpereUnit;

ReciprocalSquareRootCandela: TUnit absolute ReciprocalSquareRootCandelaUnit;

ReciprocalSquareRootCubicAmpere: TUnit absolute ReciprocalSquareRootCubicAmpereUnit;

ReciprocalSquareRootCubicCandela: TUnit absolute ReciprocalSquareRootCubicCandelaUnit;

ReciprocalSquareRootCubicKelvin: TUnit absolute ReciprocalSquareRootCubicKelvinUnit;

ReciprocalSquareRootCubicKilogram: TUnit absolute ReciprocalSquareRootCubicKilogramUnit;

ReciprocalSquareRootCubicMeter: TUnit absolute ReciprocalSquareRootCubicMeterUnit;

ReciprocalSquareRootCubicMole: TUnit absolute ReciprocalSquareRootCubicMoleUnit;

ReciprocalSquareRootCubicSecond: TUnit absolute ReciprocalSquareRootCubicSecondUnit;

ReciprocalSquareRootCubicSteradian: TUnit absolute ReciprocalSquareRootCubicSteradianUnit;

ReciprocalSquareRootKelvin: TUnit absolute ReciprocalSquareRootKelvinUnit;

ReciprocalSquareRootKilogram: TUnit absolute ReciprocalSquareRootKilogramUnit;

ReciprocalSquareRootMeter: TUnit absolute ReciprocalSquareRootMeterUnit;

ReciprocalSquareRootMole: TUnit absolute ReciprocalSquareRootMoleUnit;

ReciprocalSquareRootQuinticAmpere: TUnit absolute ReciprocalSquareRootQuinticAmpereUnit;

ReciprocalSquareRootQuinticCandela: TUnit absolute ReciprocalSquareRootQuinticCandelaUnit;

ReciprocalSquareRootQuinticKelvin: TUnit absolute ReciprocalSquareRootQuinticKelvinUnit;

ReciprocalSquareRootQuinticKilogram: TUnit absolute ReciprocalSquareRootQuinticKilogramUnit;

ReciprocalSquareRootQuinticMeter: TUnit absolute ReciprocalSquareRootQuinticMeterUnit;

ReciprocalSquareRootQuinticMole: TUnit absolute ReciprocalSquareRootQuinticMoleUnit;

ReciprocalSquareRootQuinticSecond: TUnit absolute ReciprocalSquareRootQuinticSecondUnit;

ReciprocalSquareRootQuinticSteradian: TUnit absolute ReciprocalSquareRootQuinticSteradianUnit;

ReciprocalSquareRootSecond: TUnit absolute ReciprocalSquareRootSecondUnit;

ReciprocalSquareRootSteradian: TUnit absolute ReciprocalSquareRootSteradianUnit;

ReciprocalSquareSecond: TUnit absolute ReciprocalSquareSecondUnit;

ReciprocalSquareSecondAmpere: TUnit absolute ReciprocalSquareSecondAmpereUnit;

ReciprocalSquareSecondKelvin: TUnit absolute ReciprocalSquareSecondKelvinUnit;

ReciprocalSquareSecondKelvinMole: TUnit absolute ReciprocalSquareSecondKelvinMoleUnit;

ReciprocalSquareSecondMole: TUnit absolute ReciprocalSquareSecondMoleUnit;

ReciprocalSquareSecondSquareAmpere: TUnit absolute ReciprocalSquareSecondSquareAmpereUnit;

ReciprocalSquareSecondSteradian: TUnit absolute ReciprocalSquareSecondSteradianUnit;

ReciprocalSquareSteradian: TUnit absolute ReciprocalSquareSteradianUnit;

ReciprocalSteradian: TUnit absolute ReciprocalSteradianUnit;

ReciprocalTesla: TUnit absolute ReciprocalTeslaUnit;

ReciprocalWatt: TUnit absolute ReciprocalWattUnit;

ReciprocalWeber: TUnit absolute ReciprocalWeberUnit;

Ry: TFactoredUnit absolute RydbergUnit;

Rydberg: TFactoredUnit absolute RydbergUnit;

s: TUnit absolute SecondUnit;

s2: TUnit absolute SquareSecondUnit;

s3: TUnit absolute CubicSecondUnit;

s4: TUnit absolute QuarticSecondUnit;

s5: TUnit absolute QuinticSecondUnit;

s6: TUnit absolute SexticSecondUnit;

Scalar: TUnit absolute ScalarUnit;

Second: TUnit absolute SecondUnit;

SecondCandela: TUnit absolute SecondCandelaUnit;

SecondCandelaPerCubicMeter: TUnit absolute SecondCandelaPerCubicMeterUnit;

SecondCandelaPerSquareMeter: TUnit absolute SecondCandelaPerSquareMeterUnit;

SecondPerCubicMeter: TUnit absolute SecondPerCubicMeterUnit;

SecondPerKilogram: TUnit absolute SecondPerKilogramUnit;

SecondPerKilogramPerMeter: TUnit absolute SecondPerKilogramPerMeterUnit;

SecondPerKilogramPerSquareMeter: TUnit absolute SecondPerKilogramPerSquareMeterUnit;

SecondPerMeter: TUnit absolute SecondPerMeterUnit;

SecondPerMole: TUnit absolute SecondPerMoleUnit;

SecondPerRadian: TUnit absolute SecondPerRadianUnit;

SecondPerSquareMeter: TUnit absolute SecondPerSquareMeterUnit;

SecondPerSquareMeterPerSteradian: TUnit absolute SecondPerSquareMeterPerSteradianUnit;

SecondPerSteradian: TUnit absolute SecondPerSteradianUnit;

SecondSteradian: TUnit absolute SecondSteradianUnit;

SecondSteradianPerCubicMeter: TUnit absolute SecondSteradianPerCubicMeterUnit;

SecondSteradianPerSquareMeter: TUnit absolute SecondSteradianPerSquareMeterUnit;

SexticAmpere: TUnit absolute SexticAmpereUnit;

SexticCandela: TUnit absolute SexticCandelaUnit;

SexticKelvin: TUnit absolute SexticKelvinUnit;

SexticKilogram: TUnit absolute SexticKilogramUnit;

SexticMeter: TUnit absolute SexticMeterUnit;

SexticMole: TUnit absolute SexticMoleUnit;

SexticRootAmpere: TUnit absolute SexticRootAmpereUnit;

SexticRootCandela: TUnit absolute SexticRootCandelaUnit;

SexticRootKelvin: TUnit absolute SexticRootKelvinUnit;

SexticRootKilogram: TUnit absolute SexticRootKilogramUnit;

SexticRootMeter: TUnit absolute SexticRootMeterUnit;

SexticRootMole: TUnit absolute SexticRootMoleUnit;

SexticRootSecond: TUnit absolute SexticRootSecondUnit;

SexticRootSteradian: TUnit absolute SexticRootSteradianUnit;

SexticSecond: TUnit absolute SexticSecondUnit;

SexticSecondPerMeter: TUnit absolute SexticSecondPerMeterUnit;

SexticSecondPerQuarticMeter: TUnit absolute SexticSecondPerQuarticMeterUnit;

SexticSecondPerSquareKilogram: TUnit absolute SexticSecondPerSquareKilogramUnit;

SexticSecondPerSquareKilogramPerQuarticMeter: TUnit absolute SexticSecondPerSquareKilogramPerQuarticMeterUnit;

SexticSecondSquareAmpere: TUnit absolute SexticSecondSquareAmpereUnit;

SexticSecondSquareAmperePerQuarticMeter: TUnit absolute SexticSecondSquareAmperePerQuarticMeterUnit;

SexticSecondSquareAmperePerSquareKilogram: TUnit absolute SexticSecondSquareAmperePerSquareKilogramUnit;

SexticSecondSquareAmperePerSquareKilogramPerQuarticMeter: TUnit absolute SexticSecondSquareAmperePerSquareKilogramPerQuarticMeterUnit;

SexticSteradian: TUnit absolute SexticSteradianUnit;

siemens: TUnit absolute SiemensUnit;

SiemensPerMeter: TUnit absolute SiemensPerMeterUnit;

Sievert: TUnit absolute SievertUnit;

SquareAmpere: TUnit absolute SquareAmpereUnit;

SquareAmpereCubicSecondPerKilogramPerSquareMeter: TUnit absolute SquareAmpereCubicSecondPerKilogramPerSquareMeterUnit;

SquareAmperePerCubicMeter: TUnit absolute SquareAmperePerCubicMeterUnit;

SquareAmperePerKilogram: TUnit absolute SquareAmperePerKilogramUnit;

SquareAmperePerKilogramPerCubicMeter: TUnit absolute SquareAmperePerKilogramPerCubicMeterUnit;

SquareAmperePerKilogramPerMeter: TUnit absolute SquareAmperePerKilogramPerMeterUnit;

SquareAmperePerKilogramPerSquareMeter: TUnit absolute SquareAmperePerKilogramPerSquareMeterUnit;

SquareAmperePerMeter: TUnit absolute SquareAmperePerMeterUnit;

SquareAmperePerQuarticMeter: TUnit absolute SquareAmperePerQuarticMeterUnit;

SquareAmperePerSquareKilogram: TUnit absolute SquareAmperePerSquareKilogramUnit;

SquareAmperePerSquareKilogramPerQuarticMeter: TUnit absolute SquareAmperePerSquareKilogramPerQuarticMeterUnit;

SquareAmperePerSquareMeter: TUnit absolute SquareAmperePerSquareMeterUnit;

SquareAmpereQuarticSecondPerKilogramPerSquareMeter: TUnit absolute SquareAmpereQuarticSecondPerKilogramPerSquareMeterUnit;

SquareAmpereSquareSecond: TUnit absolute SquareAmpereSquareSecondUnit;

SquareCandela: TUnit absolute SquareCandelaUnit;

SquareCoulomb: TUnit absolute SquareCoulombUnit;

SquareCoulombPerMeter: TUnit absolute SquareCoulombPerMeterUnit;

SquareDay: TFactoredUnit absolute SquareDayUnit;

SquareDegree: TFactoredUnit absolute SquareDegreeUnit;

SquareFoot: TFactoredUnit absolute SquareFootUnit;

SquareHertz: TUnit absolute SquareHertzUnit;

SquareHour: TFactoredUnit absolute SquareHourUnit;

SquareInch: TFactoredUnit absolute SquareInchUnit;

SquareJoule: TUnit absolute SquareJouleUnit;

SquareJouleSquareSecond: TUnit absolute SquareJouleSquareSecondUnit;

SquareKelvin: TUnit absolute SquareKelvinUnit;

SquareKilogram: TUnit absolute SquareKilogramUnit;

SquareKilogramPerMeter: TUnit absolute SquareKilogramPerMeterUnit;

SquareKilogramPerQuarticSecond: TUnit absolute SquareKilogramPerQuarticSecondUnit;

SquareKilogramPerSexticSecond: TUnit absolute SquareKilogramPerSexticSecondUnit;

SquareKilogramPerSexticSecondPerSquareAmpere: TUnit absolute SquareKilogramPerSexticSecondPerSquareAmpereUnit;

SquareKilogramPerSquareAmpere: TUnit absolute SquareKilogramPerSquareAmpereUnit;

SquareKilogramPerSquareMeter: TUnit absolute SquareKilogramPerSquareMeterUnit;

SquareKilogramPerSquareSecond: TUnit absolute SquareKilogramPerSquareSecondUnit;

SquareKilogramQuarticMeter: TUnit absolute SquareKilogramQuarticMeterUnit;

SquareKilogramQuarticMeterPerSexticSecond: TUnit absolute SquareKilogramQuarticMeterPerSexticSecondUnit;

SquareKilogramQuarticMeterPerSquareAmpere: TUnit absolute SquareKilogramQuarticMeterPerSquareAmpereUnit;

SquareKilogramQuarticMeterPerSquareAmperePerSexticSecond: TUnit absolute SquareKilogramQuarticMeterPerSquareAmperePerSexticSecondUnit;

SquareKilogramSquareMeter: TUnit absolute SquareKilogramSquareMeterUnit;

SquareKilogramSquareMeterPerQuarticSecond: TUnit absolute SquareKilogramSquareMeterPerQuarticSecondUnit;

SquareKilogramSquareMeterPerSquareSecond: TUnit absolute SquareKilogramSquareMeterPerSquareSecondUnit;

SquareMeter: TUnit absolute SquareMeterUnit;

SquareMeterAmpere: TUnit absolute SquareMeterAmpereUnit;

SquareMeterKelvin: TUnit absolute SquareMeterKelvinUnit;

SquareMeterPerAmpere: TUnit absolute SquareMeterPerAmpereUnit;

SquareMeterPerCandela: TUnit absolute SquareMeterPerCandelaUnit;

SquareMeterPerCandelaPerSteradian: TUnit absolute SquareMeterPerCandelaPerSteradianUnit;

SquareMeterPerCubicSecondPerAmpere: TUnit absolute SquareMeterPerCubicSecondPerAmpereUnit;

SquareMeterPerCubicSecondPerCandela: TUnit absolute SquareMeterPerCubicSecondPerCandelaUnit;

SquareMeterPerCubicSecondPerCandelaPerSteradian: TUnit absolute SquareMeterPerCubicSecondPerCandelaPerSteradianUnit;

SquareMeterPerCubicSecondPerKelvin: TUnit absolute SquareMeterPerCubicSecondPerKelvinUnit;

SquareMeterPerCubicSecondPerQuarticKelvin: TUnit absolute SquareMeterPerCubicSecondPerQuarticKelvinUnit;

SquareMeterPerCubicSecondPerSquareAmpere: TUnit absolute SquareMeterPerCubicSecondPerSquareAmpereUnit;

SquareMeterPerCubicSecondPerSteradian: TUnit absolute SquareMeterPerCubicSecondPerSteradianUnit;

SquareMeterPerKelvin: TUnit absolute SquareMeterPerKelvinUnit;

SquareMeterPerKelvinPerMole: TUnit absolute SquareMeterPerKelvinPerMoleUnit;

SquareMeterPerKilogram: TUnit absolute SquareMeterPerKilogramUnit;

SquareMeterPerMole: TUnit absolute SquareMeterPerMoleUnit;

SquareMeterPerQuarticKelvin: TUnit absolute SquareMeterPerQuarticKelvinUnit;

SquareMeterPerQuarticSecond: TUnit absolute SquareMeterPerQuarticSecondUnit;

SquareMeterPerQuarticSecondPerSquareAmpere: TUnit absolute SquareMeterPerQuarticSecondPerSquareAmpereUnit;

SquareMeterPerSecond: TUnit absolute SquareMeterPerSecondUnit;

SquareMeterPerSecondPerAmpere: TUnit absolute SquareMeterPerSecondPerAmpereUnit;

SquareMeterPerSecondPerCandela: TUnit absolute SquareMeterPerSecondPerCandelaUnit;

SquareMeterPerSecondPerCandelaPerSteradian: TUnit absolute SquareMeterPerSecondPerCandelaPerSteradianUnit;

SquareMeterPerSecondPerSteradian: TUnit absolute SquareMeterPerSecondPerSteradianUnit;

SquareMeterPerSquareAmpere: TUnit absolute SquareMeterPerSquareAmpereUnit;

SquareMeterPerSquareCoulomb: TUnit absolute SquareMeterPerSquareCoulombUnit;

SquareMeterPerSquareKilogram: TUnit absolute SquareMeterPerSquareKilogramUnit;

SquareMeterPerSquareSecond: TUnit absolute SquareMeterPerSquareSecondUnit;

SquareMeterPerSquareSecondPerAmpere: TUnit absolute SquareMeterPerSquareSecondPerAmpereUnit;

SquareMeterPerSquareSecondPerKelvin: TUnit absolute SquareMeterPerSquareSecondPerKelvinUnit;

SquareMeterPerSquareSecondPerKelvinPerMole: TUnit absolute SquareMeterPerSquareSecondPerKelvinPerMoleUnit;

SquareMeterPerSquareSecondPerMole: TUnit absolute SquareMeterPerSquareSecondPerMoleUnit;

SquareMeterPerSquareSecondPerSteradian: TUnit absolute SquareMeterPerSquareSecondPerSteradianUnit;

SquareMeterPerSteradian: TUnit absolute SquareMeterPerSteradianUnit;

SquareMeterQuarticKelvin: TUnit absolute SquareMeterQuarticKelvinUnit;

SquareMeterSquareSecond: TUnit absolute SquareMeterSquareSecondUnit;

SquareMeterSquareSecondPerKilogram: TUnit absolute SquareMeterSquareSecondPerKilogramUnit;

SquareMeterSteradian: TUnit absolute SquareMeterSteradianUnit;

SquareMeterSteradianHertz: TUnit absolute SquareMeterSteradianHertzUnit;

SquareMile: TFactoredUnit absolute SquareMileUnit;

SquareMinute: TFactoredUnit absolute SquareMinuteUnit;

SquareMole: TUnit absolute SquareMoleUnit;

SquareNewton: TUnit absolute SquareNewtonUnit;

SquareRootAmpere: TUnit absolute SquareRootAmpereUnit;

SquareRootCandela: TUnit absolute SquareRootCandelaUnit;

SquareRootCubicAmpere: TUnit absolute SquareRootCubicAmpereUnit;

SquareRootCubicCandela: TUnit absolute SquareRootCubicCandelaUnit;

SquareRootCubicKelvin: TUnit absolute SquareRootCubicKelvinUnit;

SquareRootCubicKilogram: TUnit absolute SquareRootCubicKilogramUnit;

SquareRootCubicMeter: TUnit absolute SquareRootCubicMeterUnit;

SquareRootCubicMole: TUnit absolute SquareRootCubicMoleUnit;

SquareRootCubicSecond: TUnit absolute SquareRootCubicSecondUnit;

SquareRootCubicSteradian: TUnit absolute SquareRootCubicSteradianUnit;

SquareRootKelvin: TUnit absolute SquareRootKelvinUnit;

SquareRootKilogram: TUnit absolute SquareRootKilogramUnit;

SquareRootMeter: TUnit absolute SquareRootMeterUnit;

SquareRootMole: TUnit absolute SquareRootMoleUnit;

SquareRootQuinticAmpere: TUnit absolute SquareRootQuinticAmpereUnit;

SquareRootQuinticCandela: TUnit absolute SquareRootQuinticCandelaUnit;

SquareRootQuinticKelvin: TUnit absolute SquareRootQuinticKelvinUnit;

SquareRootQuinticKilogram: TUnit absolute SquareRootQuinticKilogramUnit;

SquareRootQuinticMeter: TUnit absolute SquareRootQuinticMeterUnit;

SquareRootQuinticMole: TUnit absolute SquareRootQuinticMoleUnit;

SquareRootQuinticSecond: TUnit absolute SquareRootQuinticSecondUnit;

SquareRootQuinticSteradian: TUnit absolute SquareRootQuinticSteradianUnit;

SquareRootSecond: TUnit absolute SquareRootSecondUnit;

SquareRootSteradian: TUnit absolute SquareRootSteradianUnit;

SquareSecond: TUnit absolute SquareSecondUnit;

SquareSecondAmpere: TUnit absolute SquareSecondAmpereUnit;

SquareSecondAmperePerKilogramPerMeter: TUnit absolute SquareSecondAmperePerKilogramPerMeterUnit;

SquareSecondAmperePerMeter: TUnit absolute SquareSecondAmperePerMeterUnit;

SquareSecondAmperePerSquareMeter: TUnit absolute SquareSecondAmperePerSquareMeterUnit;

SquareSecondKelvin: TUnit absolute SquareSecondKelvinUnit;

SquareSecondKelvinMole: TUnit absolute SquareSecondKelvinMoleUnit;

SquareSecondKelvinMolePerKilogram: TUnit absolute SquareSecondKelvinMolePerKilogramUnit;

SquareSecondKelvinMolePerKilogramPerSquareMeter: TUnit absolute SquareSecondKelvinMolePerKilogramPerSquareMeterUnit;

SquareSecondKelvinMolePerSquareMeter: TUnit absolute SquareSecondKelvinMolePerSquareMeterUnit;

SquareSecondKelvinPerKilogram: TUnit absolute SquareSecondKelvinPerKilogramUnit;

SquareSecondKelvinPerKilogramPerSquareMeter: TUnit absolute SquareSecondKelvinPerKilogramPerSquareMeterUnit;

SquareSecondKelvinPerSquareMeter: TUnit absolute SquareSecondKelvinPerSquareMeterUnit;

SquareSecondMole: TUnit absolute SquareSecondMoleUnit;

SquareSecondMolePerKilogram: TUnit absolute SquareSecondMolePerKilogramUnit;

SquareSecondMolePerKilogramPerSquareMeter: TUnit absolute SquareSecondMolePerKilogramPerSquareMeterUnit;

SquareSecondMolePerSquareMeter: TUnit absolute SquareSecondMolePerSquareMeterUnit;

SquareSecondPerCubicMeter: TUnit absolute SquareSecondPerCubicMeterUnit;

SquareSecondPerKilogram: TUnit absolute SquareSecondPerKilogramUnit;

SquareSecondPerKilogramPerCubicMeter: TUnit absolute SquareSecondPerKilogramPerCubicMeterUnit;

SquareSecondPerKilogramPerQuarticMeter: TUnit absolute SquareSecondPerKilogramPerQuarticMeterUnit;

SquareSecondPerKilogramPerSquareMeter: TUnit absolute SquareSecondPerKilogramPerSquareMeterUnit;

SquareSecondPerMeter: TUnit absolute SquareSecondPerMeterUnit;

SquareSecondPerQuarticMeter: TUnit absolute SquareSecondPerQuarticMeterUnit;

SquareSecondPerSquareKilogram: TUnit absolute SquareSecondPerSquareKilogramUnit;

SquareSecondPerSquareKilogramPerQuarticMeter: TUnit absolute SquareSecondPerSquareKilogramPerQuarticMeterUnit;

SquareSecondPerSquareKilogramPerSquareMeter: TUnit absolute SquareSecondPerSquareKilogramPerSquareMeterUnit;

SquareSecondPerSquareMeter: TUnit absolute SquareSecondPerSquareMeterUnit;

SquareSecondPerSteradian: TUnit absolute SquareSecondPerSteradianUnit;

SquareSecondSquareAmperePerKilogram: TUnit absolute SquareSecondSquareAmperePerKilogramUnit;

SquareSecondSquareAmperePerKilogramPerMeter: TUnit absolute SquareSecondSquareAmperePerKilogramPerMeterUnit;

SquareSecondSquareAmperePerSquareMeter: TUnit absolute SquareSecondSquareAmperePerSquareMeterUnit;

SquareSecondSteradian: TUnit absolute SquareSecondSteradianUnit;

SquareSecondSteradianPerKilogram: TUnit absolute SquareSecondSteradianPerKilogramUnit;

SquareSecondSteradianPerKilogramPerSquareMeter: TUnit absolute SquareSecondSteradianPerKilogramPerSquareMeterUnit;

SquareSecondSteradianPerSquareMeter: TUnit absolute SquareSecondSteradianPerSquareMeterUnit;

SquareSteradian: TUnit absolute SquareSteradianUnit;

SquareVolt: TUnit absolute SquareVoltUnit;

SquareYard: TFactoredUnit absolute SquareYardUnit;

sr: TUnit absolute SteradianUnit;

st: TFactoredUnit absolute StoneUnit;

Steradian: TUnit absolute SteradianUnit;

SteradianHertz: TUnit absolute SteradianHertzUnit;

SteradianPerCubicMeter: TUnit absolute SteradianPerCubicMeterUnit;

SteradianPerKilogram: TUnit absolute SteradianPerKilogramUnit;

SteradianPerKilogramPerMeter: TUnit absolute SteradianPerKilogramPerMeterUnit;

SteradianPerKilogramPerSquareMeter: TUnit absolute SteradianPerKilogramPerSquareMeterUnit;

SteradianPerMeter: TUnit absolute SteradianPerMeterUnit;

SteradianPerSquareMeter: TUnit absolute SteradianPerSquareMeterUnit;

SteradianPerSquareSecond: TUnit absolute SteradianPerSquareSecondUnit;

Stone: TFactoredUnit absolute StoneUnit;

Sv: TUnit absolute SievertUnit;

T: TUnit absolute TeslaUnit;

Tesla: TUnit absolute TeslaUnit;

TeslaMeter: TUnit absolute TeslaMeterUnit;

TeslaMeterPerAmpere: TUnit absolute TeslaMeterPerAmpereUnit;

TeslaPerAmpere: TUnit absolute TeslaPerAmpereUnit;

ton: TFactoredUnit absolute TonUnit;

tonne: TFactoredUnit absolute TonneUnit;

Torr: TFactoredUnit absolute TorrUnit;

V: TUnit absolute VoltUnit;

V2: TUnit absolute SquareVoltUnit;

Volt: TUnit absolute VoltUnit;

VoltMeter: TUnit absolute VoltMeterUnit;

VoltMeterPerSecond: TUnit absolute VoltMeterPerSecondUnit;

VoltPerMeter: TUnit absolute VoltPerMeterUnit;

W: TUnit absolute WattUnit;

Watt: TUnit absolute WattUnit;

WattPerCubicMeter: TUnit absolute WattPerCubicMeterUnit;

WattPerCubicMeterPerSteradian: TUnit absolute WattPerCubicMeterPerSteradianUnit;

WattPerHertz: TUnit absolute WattPerHertzUnit;

WattPerKelvin: TUnit absolute WattPerKelvinUnit;

WattPerMeter: TUnit absolute WattPerMeterUnit;

WattPerMeterPerKelvin: TUnit absolute WattPerMeterPerKelvinUnit;

WattPerMeterPerSteradian: TUnit absolute WattPerMeterPerSteradianUnit;

WattPerQuarticKelvin: TUnit absolute WattPerQuarticKelvinUnit;

WattPerSquareMeter: TUnit absolute WattPerSquareMeterUnit;

WattPerSquareMeterPerHertz: TUnit absolute WattPerSquareMeterPerHertzUnit;

WattPerSquareMeterPerKelvin: TUnit absolute WattPerSquareMeterPerKelvinUnit;

WattPerSquareMeterPerQuarticKelvin: TUnit absolute WattPerSquareMeterPerQuarticKelvinUnit;

WattPerSquareMeterPerSteradian: TUnit absolute WattPerSquareMeterPerSteradianUnit;

WattPerSquareMeterPerSteradianPerHertz: TUnit absolute WattPerSquareMeterPerSteradianPerHertzUnit;

WattPerSteradian: TUnit absolute WattPerSteradianUnit;

WattPerSteradianPerHertz: TUnit absolute WattPerSteradianPerHertzUnit;

WattSecond: TUnit absolute WattSecondUnit;

Wb: TUnit absolute WeberUnit;

Weber: TUnit absolute WeberUnit;

WeberPerSquareMeter: TUnit absolute WeberPerSquareMeterUnit;

Yard: TFactoredUnit absolute YardUnit;

yd: TFactoredUnit absolute YardUnit;

yd2: TFactoredUnit absolute SquareYardUnit;

yd3: TFactoredUnit absolute CubicYardUnit;

Description

Functions and Procedures

function Abs(const AValue: double): double;

Returns the absolute value of a real number. Equivalent to the standard System.Abs but provided for consistency with the overloaded complex version. Parameters AValue The real number.

function Abs(const AValue: TComplex): double;

Returns the modulus (magnitude) of a complex number. Defined as |z| = √(Re² + Im²). Parameters AValue The complex number.

function ArcCos(const AValue: double): TQuantity;

Returns the arc cosine of AValue as an angle quantity in radians. AValue must be in the range [-1, 1]. The result has the dimension of an angle (radians). Parameters AValue The dimensionless cosine value.

function ArcSin(const AValue: double): TQuantity;

Returns the arc sine of AValue as an angle quantity in radians. AValue must be in the range [-1, 1]. The result has the dimension of an angle (radians). Parameters AValue The dimensionless sine value.

function ArcTan(const AValue: double): TQuantity;

Returns the arc tangent of AValue as an angle quantity in radians. The result is in the range (-π/2, π/2). The result has the dimension of an angle (radians). Parameters AValue The dimensionless tangent value.

function ArcTan2(const x, y: double): TQuantity;

Returns the arc tangent of y/x as an angle quantity in radians, using the signs of both arguments to determine the correct quadrant. The result is in the range [-π, π]. The result has the dimension of an angle (radians). Parameters x The dimensionless x-coordinate. y The dimensionless y-coordinate.

function Commutator(const ALeft, ARight: TC2Matrix): TC2Matrix;

Returns the commutator of two 2×2 complex matrices. Defined as [A, B] = A·B - B·A. The commutator is zero if and only if the two matrices commute. Parameters ALeft The left-hand matrix operand. ARight The right-hand matrix operand.

function Commutator(const ALeft, ARight: TC3Matrix): TC3Matrix;

Returns the commutator of two 3×3 complex matrices. Defined as [A, B] = A·B - B·A. The commutator is zero if and only if the two matrices commute. Parameters ALeft The left-hand matrix operand. ARight The right-hand matrix operand.

function Commutator(const ALeft, ARight: TC4Matrix): TC4Matrix;

Returns the commutator of two 4×4 complex matrices. Defined as [A, B] = A·B - B·A. The commutator is zero if and only if the two matrices commute. Parameters ALeft The left-hand matrix operand. ARight The right-hand matrix operand.

function Cos(const AQuantity: TQuantity): double;

Returns the cosine of the angle quantity. The quantity must have the dimension of an angle (radians). The result is a dimensionless double. Parameters AQuantity The angle quantity in radians.

function Cosecant(const AQuantity: TQuantity): double;

Returns the cosecant of the angle quantity: 1/sin(θ). The quantity must have the dimension of an angle (radians). The result is a dimensionless double. Parameters AQuantity The angle quantity in radians.

function Cotan(const AQuantity: TQuantity): double;

Returns the cotangent of the angle quantity: cos(θ)/sin(θ). The quantity must have the dimension of an angle (radians). The result is a dimensionless double. Parameters AQuantity The angle quantity in radians.

function CubicPower(const AValue: TComplex): TComplex;

Returns the cube of the complex number AValue. Defined as z³ = z² · z. Parameters AValue The complex number to cube.

function CubicPower(const AQuantity: TComplexQuantity): TComplexQuantity;

Returns the cube of the complex quantity AQuantity. The resulting dimension is the cube of the original dimension. Parameters AQuantity The complex quantity to cube.

function CubicPower(const AQuantity: TQuantity): TQuantity;

Returns the cube of the quantity: AQuantity³. The resulting dimension is the cube of the original dimension. Parameters AQuantity The quantity to cube.

function CubicRoot(const AValue: TComplex): TC3ArrayOfComplex;

Returns all cube roots of the complex number AValue as a fixed-size array. A non-zero complex number has exactly 3 cube roots, equally spaced in argument by 2π/3: zˆ(1/3) = |z|ˆ(1/3) · eˆ(i·(φ + 2kπ)/3) for k = 0, 1, 2. Parameters AValue The complex number whose cube roots are computed.

function CubicRoot(const AQuantity: TQuantity): TQuantity;

Returns the cube root of the quantity: AQuantityˆ(1/3). The resulting dimension has all exponents divided by 3. Parameters AQuantity The quantity whose cube root is computed. Exceptions raised Exception if any dimension exponent is not divisible by 3.

function EqualToZero(const AQuantity: TQuantity): boolean;

Returns True if the quantity is equal to zero within the default floating point tolerance. Parameters AQuantity The quantity to test.

function Exp(const AQuantity: TQuantity): TQuantity;

Returns eˆAQuantity as a dimensioned quantity. The argument must be dimensionless; the result has the same dimension as the argument. Parameters AQuantity The dimensionless exponent quantity.

function GreaterThanOrEqualToZero(const AQuantity: TQuantity): boolean;

Returns True if the quantity is greater than or equal to zero. Parameters AQuantity The quantity to test.

function GreaterThanZero(const AQuantity: TQuantity): boolean;

Returns True if the quantity is strictly greater than zero. Parameters AQuantity The quantity to test.

function LessThanOrEqualToZero(const AQuantity: TQuantity): boolean;

Returns True if the quantity is less than or equal to zero. The quantity must be dimensionless or the comparison must be meaningful within its dimension context. Parameters AQuantity The quantity to test.

function LessThanZero(const AQuantity: TQuantity): boolean;

Returns True if the quantity is strictly less than zero. Parameters AQuantity The quantity to test.

function Log10(const AQuantity: TQuantity): double;

Returns the base-10 logarithm of the quantity as a dimensionless double. The argument must be dimensionless and positive. Parameters AQuantity The dimensionless positive quantity.

function Log2(const AQuantity: TQuantity): double;

Returns the base-2 logarithm of the quantity as a dimensionless double. The argument must be dimensionless and positive. Parameters AQuantity The dimensionless positive quantity.

function LogN(ABase: longint; const AQuantity: TQuantity): double;

Returns the base-ABase logarithm of the quantity as a dimensionless double. The argument must be dimensionless and positive. Parameters ABase The integer logarithm base. AQuantity The dimensionless positive quantity.

function LogN(const ABase, AQuantity: TQuantity): double;

Returns the logarithm of AQuantity in the base ABase as a dimensionless double. Both arguments must be dimensionless and positive. Parameters ABase The dimensionless base quantity. AQuantity The dimensionless positive quantity.

function Max(const ALeft, ARight: TQuantity): TQuantity;

Returns the larger of two quantities. Both operands must have the same dimension. Parameters ALeft The first quantity. ARight The second quantity.

function Min(const ALeft, ARight: TQuantity): TQuantity;

Returns the smaller of two quantities. Both operands must have the same dimension. Parameters ALeft The first quantity. ARight The second quantity.

function NotEqualToZero(const AQuantity: TQuantity): boolean;

Returns True if the quantity is not equal to zero within the default floating point tolerance. Parameters AQuantity The quantity to test.

function Power(const ABase: TQuantity; AExponent: double): double;

Returns ABaseˆAExponent as a dimensionless double. The base must be dimensionless. Used for fractional or real exponents where dimensional consistency cannot be verified at compile time. Parameters ABase The dimensionless base quantity. AExponent The real exponent.

function QuarticPower(const AValue: TComplex): TComplex;

Returns the fourth power of the complex number AValue. Defined as z⁴ = (z²)². Parameters AValue The complex number to raise to the fourth power.

function QuarticPower(const AQuantity: TComplexQuantity): TComplexQuantity;

Returns the fourth power of the complex quantity AQuantity. The resulting dimension is the fourth power of the original dimension. Parameters AQuantity The complex quantity to raise to the fourth power.

function QuarticPower(const AQuantity: TQuantity): TQuantity;

Returns the fourth power of the quantity: AQuantity⁴. The resulting dimension is the fourth power of the original dimension. Parameters AQuantity The quantity to raise to the fourth power.

function QuarticRoot(const AValue: TComplex): TC4ArrayOfComplex;

Returns all fourth roots of the complex number AValue as a fixed-size array. A non-zero complex number has exactly 4 fourth roots, equally spaced in argument by π/2: zˆ(1/4) = |z|ˆ(1/4) · eˆ(i·(φ + 2kπ)/4) for k = 0, 1, 2, 3. Parameters AValue The complex number whose fourth roots are computed.

function QuarticRoot(const AQuantity: TQuantity): TQuantity;

Returns the fourth root of the quantity: AQuantityˆ(1/4). The resulting dimension has all exponents divided by 4. Parameters AQuantity The quantity whose fourth root is computed. Exceptions raised Exception if any dimension exponent is not divisible by 4.

function QuinticPower(const AQuantity: TQuantity): TQuantity;

Returns the fifth power of the quantity: AQuantity⁵. The resulting dimension is the fifth power of the original dimension. Parameters AQuantity The quantity to raise to the fifth power.

function QuinticRoot(const AQuantity: TQuantity): TQuantity;

Returns the fifth root of the quantity: AQuantityˆ(1/5). The resulting dimension has all exponents divided by 5. Parameters AQuantity The quantity whose fifth root is computed. Exceptions raised Exception if any dimension exponent is not divisible by 5.

function SameValueEx(const AValue1, AValue2: double): boolean;

Returns True if two real numbers are equal within the default floating point tolerance. Uses an epsilon-based comparison to account for floating point rounding errors. Parameters AValue1 The first real number. AValue2 The second real number.

function SameValueEx(const AValue1, AValue2: TC2Matrix): boolean;

Returns True if two 2×2 complex matrices are equal within the default floating point tolerance. All corresponding elements must be within tolerance. Parameters AValue1 The first complex matrix. AValue2 The second complex matrix.

function SameValueEx(const AValue1, AValue2: TC2Vector): boolean;

Returns True if two 2-component complex vectors are equal within the default floating point tolerance. All corresponding components must be within tolerance. Parameters AValue1 The first complex vector. AValue2 The second complex vector.

function SameValueEx(const AValue1, AValue2: TC3Matrix): boolean;

Returns True if two 3×3 complex matrices are equal within the default floating point tolerance. All corresponding elements must be within tolerance. Parameters AValue1 The first complex matrix. AValue2 The second complex matrix.

function SameValueEx(const AValue1, AValue2: TC3Vector): boolean;

Returns True if two 3-component complex vectors are equal within the default floating point tolerance. All corresponding components must be within tolerance. Parameters AValue1 The first complex vector. AValue2 The second complex vector.

function SameValueEx(const AValue1, AValue2: TC4Matrix): boolean;

Returns True if two 4×4 complex matrices are equal within the default floating point tolerance. All corresponding elements must be within tolerance. Parameters AValue1 The first complex matrix. AValue2 The second complex matrix.

function SameValueEx(const AValue1, AValue2: TC4Vector): boolean;

Returns True if two 4-component complex vectors are equal within the default floating point tolerance. All corresponding components must be within tolerance. Parameters AValue1 The first complex vector. AValue2 The second complex vector.

function SameValueEx(const AValue1, AValue2: TComplex): boolean;

Returns True if two complex numbers are equal within the default floating point tolerance. Both the real and imaginary parts must be within tolerance. Parameters AValue1 The first complex number. AValue2 The second complex number.

function SameValueEx(const ALeft, ARight: TQuantity): boolean;

Returns True if two real physical quantities are equal within the default floating point tolerance. Both operands must have the same dimension; an exception is raised if they differ. Parameters ALeft The first quantity. ARight The second quantity.

function Secant(const AQuantity: TQuantity): double;

Returns the secant of the angle quantity: 1/cos(θ). The quantity must have the dimension of an angle (radians). The result is a dimensionless double. Parameters AQuantity The angle quantity in radians.

function SexticPower(const AQuantity: TQuantity): TQuantity;

Returns the sixth power of the quantity: AQuantity⁶. The resulting dimension is the sixth power of the original dimension. Parameters AQuantity The quantity to raise to the sixth power.

function SexticRoot(const AQuantity: TQuantity): TQuantity;

Returns the sixth root of the quantity: AQuantityˆ(1/6). The resulting dimension has all exponents divided by 6. Parameters AQuantity The quantity whose sixth root is computed. Exceptions raised Exception if any dimension exponent is not divisible by 6.

function Sin(const AQuantity: TQuantity): double;

Returns the sine of the angle quantity. The quantity must have the dimension of an angle (radians). The result is a dimensionless double. Parameters AQuantity The angle quantity in radians.

function SolveEquation(const a: double): double;

Solves the linear equation a·x = 0 over the reals. Returns x = 0 for any non-zero a, or raises an exception if a = 0. Parameters a The coefficient of the linear term.

function SolveEquation(const a: TComplex): TComplex;

Solves the linear equation a·z = 0 over the complex numbers. Returns z = 0 for any non-zero a, or raises an exception if a = 0. Parameters a The complex coefficient of the linear term.

function SolveEquation(const a, b: TComplex): TC2ArrayOfComplex;

Solves the linear equation a·z + b = 0 over the complex numbers. Returns the single root z = -b/a as a TC2ArrayOfComplex. Parameters a The complex coefficient of the linear term. b The complex constant term. Exceptions raised Exception if a = 0.

function SolveEquation(const a, b, c: TComplex): TC3ArrayOfComplex;

Solves the quadratic equation a·z² + b·z + c = 0 over the complex numbers. Returns both roots (including repeated roots) as a TC3ArrayOfComplex. Parameters a The complex coefficient of the quadratic term. b The complex coefficient of the linear term. c The complex constant term. Exceptions raised Exception if a = 0.

function SolveEquation(const a, b, c, d: TComplex): TC4ArrayOfComplex;

Solves the cubic equation a·z³ + b·z² + c·z + d = 0 over the complex numbers using Cardano's method. Returns all three roots as a TC4ArrayOfComplex. Parameters a The complex coefficient of the cubic term. b The complex coefficient of the quadratic term. c The complex coefficient of the linear term. d The complex constant term. Exceptions raised Exception if a = 0.

function SquarePower(const AValue: TComplex): TComplex;

Returns the square of the complex number AValue. Defined as z² = (Re² - Im²) + 2·Re·Im·i. Parameters AValue The complex number to square.

function SquarePower(const AQuantity: TComplexQuantity): TComplexQuantity;

Returns the square of the complex quantity AQuantity. The resulting dimension is the square of the original dimension. Parameters AQuantity The complex quantity to square.

function SquareRoot(const AValue: TComplex): TC2ArrayOfComplex;

Returns all square roots of the complex number AValue as a fixed-size array. A non-zero complex number has exactly 2 square roots, equally spaced in argument by π: zˆ(1/2) = |z|ˆ(1/2) · eˆ(i·(φ + 2kπ)/2) for k = 0, 1. Parameters AValue The complex number whose square roots are computed.

function SquareRoot(const AQuantity: TQuantity): TQuantity;

Returns the square root of the quantity: AQuantityˆ(1/2). The resulting dimension has all exponents halved. Parameters AQuantity The quantity whose square root is computed. Exceptions raised Exception if any dimension exponent is odd.

function Tan(const AQuantity: TQuantity): double;

Returns the tangent of the angle quantity. The quantity must have the dimension of an angle (radians). The result is a dimensionless double. Parameters AQuantity The angle quantity in radians.

Types

TPrefix = (...);

TPrefix Values pQuetta pRonna pYotta pZetta pExa pPeta pTera pGiga pMega pKilo pHecto pDeca pNone pDeci pCenti pMilli pMicro pNano pPico pFemto pAtto pZepto pYocto pRonto pQuecto

TPrefixes = array of TPrefix;

TPrefixes

TExponents = array of longint;

TExponents

TR2Matrix = specialize TRMatrix<T2DSpace>;

2×2 real matrix. Specialization of TRMatrix for T2DSpace.

TR3Matrix = specialize TRMatrix<T3DSpace>;

3×3 real matrix. Specialization of TRMatrix for T3DSpace.

TR4Matrix = specialize TRMatrix<T4DSpace>;

4×4 real matrix. Specialization of TRMatrix for T4DSpace.

TC2Matrix = specialize TCMatrix<T2DSpace>;

2×2 complex matrix. Specialization of TCMatrix for T2DSpace.

TC3Matrix = specialize TCMatrix<T3DSpace>;

3×3 complex matrix. Specialization of TCMatrix for T3DSpace.

TC4Matrix = specialize TCMatrix<T4DSpace>;

4×4 complex matrix. Specialization of TCMatrix for T4DSpace.

TR2MatrixQuantity = specialize TRMatrixQuantity<T2DSpace>;

2×2 real quantity matrix. Specialization of TRMatrixQuantity for T2DSpace.

TR3MatrixQuantity = specialize TRMatrixQuantity<T3DSpace>;

3×3 real quantity matrix. Specialization of TRMatrixQuantity for T3DSpace.

TR4MatrixQuantity = specialize TRMatrixQuantity<T4DSpace>;

4×4 real quantity matrix. Specialization of TRMatrixQuantity for T4DSpace.

TC2MatrixQuantity = specialize TCMatrixQuantity<T2DSpace>;

2×2 complex quantity matrix. Specialization of TCMatrixQuantity for T2DSpace.

TC3MatrixQuantity = specialize TCMatrixQuantity<T3DSpace>;

3×3 complex quantity matrix. Specialization of TCMatrixQuantity for T3DSpace.

TC4MatrixQuantity = specialize TCMatrixQuantity<T4DSpace>;

4×4 complex quantity matrix. Specialization of TCMatrixQuantity for T4DSpace.

TC2Vector = specialize TCVector<T2DSpace>;

2-component complex vector. Specialization of TCVector for T2DSpace.

TC3Vector = specialize TCVector<T3DSpace>;

3-component complex vector. Specialization of TCVector for T3DSpace.

TC4Vector = specialize TCVector<T4DSpace>;

4-component complex vector. Specialization of TCVector for T4DSpace.

TR2Vector = specialize TRVector<T2DSpace>;

2-component real vector. Specialization of TRVector for T2DSpace.

TR3Vector = specialize TRVector<T3DSpace>;

3-component real vector. Specialization of TRVector for T3DSpace.

TR4Vector = specialize TRVector<T4DSpace>;

4-component real vector. Specialization of TRVector for T4DSpace.

TC2ArrayOfComplex = array[1..T2DSpace.N] of TComplex;

Fixed-size array of 2 complex values. Used to store eigenvalues of TC2Matrix.

TC3ArrayOfComplex = array[1..T3DSpace.N] of TComplex;

Fixed-size array of 3 complex values. Used to store eigenvalues of TC3Matrix.

TC4ArrayOfComplex = array[1..T4DSpace.N] of TComplex;

Fixed-size array of 4 complex values. Used to store eigenvalues of TC4Matrix.

TC2ArrayOfVector = array[1..T2DSpace.N] of TC2Vector;

Fixed-size array of 2 complex vectors. Used to store eigenvectors of TC2Matrix.

TC3ArrayOfVector = array[1..T3DSpace.N] of TC3Vector;

Fixed-size array of 3 complex vectors. Used to store eigenvectors of TC3Matrix.

TC4ArrayOfVector = array[1..T4DSpace.N] of TC4Vector;

Fixed-size array of 4 complex vectors. Used to store eigenvectors of TC4Matrix.

TR2VecQuantity = specialize TRVecQuantity<T2DSpace>;

2-component real quantity vector. Specialization of TRVecQuantity for T2DSpace.

TR3VecQuantity = specialize TRVecQuantity<T3DSpace>;

3-component real quantity vector. Specialization of TRVecQuantity for T3DSpace.

TR4VecQuantity = specialize TRVecQuantity<T4DSpace>;

4-component real quantity vector. Specialization of TRVecQuantity for T4DSpace.

TC2VecQuantity = specialize TCVecQuantity<T2DSpace>;

2-component complex quantity vector. Specialization of TCVecQuantity for T2DSpace.

TC3VecQuantity = specialize TCVecQuantity<T3DSpace>;

3-component complex quantity vector. Specialization of TCVecQuantity for T3DSpace.

TC4VecQuantity = specialize TCVecQuantity<T4DSpace>;

4-component complex quantity vector. Specialization of TCVecQuantity for T4DSpace.

TCL3MultivectorComponent = (...);

Enumeration of the eight basis blade components of a multivector in the Clifford algebra Cl(3,0) over R3. The basis blades are: mcm0 - scalar part: 1 mcm1 - vector basis blade: e1 mcm2 - vector basis blade: e2 mcm3 - vector basis blade: e3 mcm12 - bivector basis blade: e1∧e2 mcm13 - bivector basis blade: e1∧e3 mcm23 - bivector basis blade: e2∧e3 mcm123 - pseudoscalar (trivector) basis blade: e1∧e2∧e3 The algebra satisfies e1·e1 = +1 for all i, and e1·e2 = -e2·e1 for i ≠ j. Values mcm0 mcm1 mcm2 mcm3 mcm12 mcm13 mcm23 mcm123

TCL3MultivectorComponents = set of TCL3MultivectorComponent;

A set of TCL3MultivectorComponent values. Used to identify which components of a multivector are non-zero, e.g. to select or test specific grades.

TC2ArrayOfQuantity = array[1..T2DSpace.N] of TComplexQuantity;

Fixed-size array of 2 complex quantities. Used to store eigenvalues of TC2MatrixQuantity or other 2-element collections of TComplexQuantity.

TC3ArrayOfQuantity = array[1..T3DSpace.N] of TComplexQuantity;

Fixed-size array of 3 complex quantities. Used to store eigenvalues of TC3MatrixQuantity or other 3-element collections of TComplexQuantity.

TC4ArrayOfQuantity = array[1..T4DSpace.N] of TComplexQuantity;

Fixed-size array of 4 complex quantities. Used to store eigenvalues of TC4MatrixQuantity or other 4-element collections of TComplexQuantity.

TC2ArrayOfVecQuantity = array[1..T2DSpace.N] of TC2VecQuantity;

Fixed-size array of 2 complex quantity vectors (TC2VecQuantity). Used to store eigenvectors of TC2MatrixQuantity.

TC3ArrayOfVecQuantity = array[1..T3DSpace.N] of TC3VecQuantity;

Fixed-size array of 3 complex quantity vectors (TC3VecQuantity). Used to store eigenvectors of TC3MatrixQuantity.

TC4ArrayOfVecQuantity = array[1..T4DSpace.N] of TC4VecQuantity;

Fixed-size array of 4 complex quantity vectors (TC4VecQuantity). Used to store eigenvectors of TC4MatrixQuantity.

Constants

AvogadroConstant : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: -60; FCandela: 0; FSteradian: 0); FValue: 6.02214076E+23);

Avogadro constant Nₐ = 6.02214076 × 10²³ mol⁻¹. Number of constituent particles per mole of substance.

BohrMagneton : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 9.2740100657E-24);

Bohr magneton μB = 9.2740100657 × 10⁻²⁴ J·T⁻¹. Natural unit of electronic magnetic dipole moment.

BohrRadius : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 5.29177210903E-11);

Bohr radius a₀ = 5.29177210903 × 10⁻¹¹ m. Most probable distance between the electron and nucleus in a hydrogen atom ground state.

BoltzmannConstant : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: -60; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.380649E-23);

Boltzmann constant kB = 1.380649 × 10⁻²³ J·K⁻¹. Relates the average kinetic energy of particles in a gas to the thermodynamic temperature.

cA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

cA - centiampere: submultiple of ampere; 1 cA = 1e-02 A.

cA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

cA² - square centiampere: submultiple of square ampere; 1 cA² = 1e-04 A².

cC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

cC - centicoulomb: submultiple of coulomb; 1 cC = 1e-02 C.

cC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

cC² - square centicoulomb: submultiple of square coulomb; 1 cC² = 1e-04 C².

cL : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E-03 * 1e-02);

cL - centilitre: submultiple of litre; 1 cL = 1e-02 L.

cm : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

cm - centimeter: submultiple of meter; 1 cm = 1e-02 m.

cm2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

cm² - square centimeter: submultiple of square meter; 1 cm² = 1e-04 m².

cm3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

cm³ - cubic centimeter: submultiple of cubic meter; 1 cm³ = 1e-06 m³.

cm4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-08);

cm⁴ - quartic centimeter: submultiple of quartic meter; 1 cm⁴ = 1e-08 m⁴.

cm5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-10);

cm⁵ - quintic centimeter: submultiple of quintic meter; 1 cm⁵ = 1e-10 m⁵.

cm6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

cm⁶ - sextic centimeter: submultiple of sextic meter; 1 cm⁶ = 1e-12 m⁶.

ComptonWaveLength : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 2.42631023867E-12);

Compton wavelength λC = 2.42631023867 × 10⁻¹² m. Quantum mechanical property of the electron; sets the scale at which quantum field effects become significant.

CoulombConstant : TQuantity = (FDim: (FKilogram: 60; FMeter: 180; FSecond: -240; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 8.9875517923E+9);

Coulomb constant ke = 8.9875517923 × 10⁹ N·m²·C⁻². Proportionality constant in Coulomb's law of electrostatic force.

cPl : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

cPl - centipoiseuille: submultiple of poiseuille; 1 cPl = 1e-02 Pl.

cs : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

cs - centisecond: submultiple of second; 1 cs = 1e-02 s.

cs2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

cs² - square centisecond: submultiple of square second; 1 cs² = 1e-04 s².

cs3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

cs³ - cubic centisecond: submultiple of cubic second; 1 cs³ = 1e-06 s³.

cs4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-08);

cs⁴ - quartic centisecond: submultiple of quartic second; 1 cs⁴ = 1e-08 s⁴.

cs5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-10);

cs⁵ - quintic centisecond: submultiple of quintic second; 1 cs⁵ = 1e-10 s⁵.

cs6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

cs⁶ - sextic centisecond: submultiple of sextic second; 1 cs⁶ = 1e-12 s⁶.

dA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-01);

dA - deciampere: submultiple of ampere; 1 dA = 1e-01 A.

dA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

dA² - square deciampere: submultiple of square ampere; 1 dA² = 1e-02 A².

daA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+01);

daA - decaampere: multiple of ampere; 1 daA = 1e+01 A.

daA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

daA² - square decaampere: multiple of square ampere; 1 daA² = 1e+02 A².

daC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+01);

daC - decacoulomb: multiple of coulomb; 1 daC = 1e+01 C.

daC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

daC² - square decacoulomb: multiple of square coulomb; 1 daC² = 1e+02 C².

damol : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 60; FCandela: 0; FSteradian: 0); FValue: 1e+01);

damol - decamole: multiple of mole; 1 damol = 1e+01 mol.

daN : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+01);

daN - decanewton: multiple of newton; 1 daN = 1e+01 N.

daN2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 120; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

daN² - square decanewton: multiple of square newton; 1 daN² = 1e+02 N².

dC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-01);

dC - decicoulomb: submultiple of coulomb; 1 dC = 1e-01 C.

dC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

dC² - square decicoulomb: submultiple of square coulomb; 1 dC² = 1e-02 C².

DeuteronMass : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 3.3435837768E-27);

Deuteron mass m_d = 3.3435837768 × 10⁻²⁷ kg. Rest mass of the deuteron (nucleus of deuterium, one proton and one neutron).

dL : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E-03 * 1e-01);

dL - decilitre: submultiple of litre; 1 dL = 1e-01 L.

dm : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-01);

dm - decimeter: submultiple of meter; 1 dm = 1e-01 m.

dm2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

dm² - square decimeter: submultiple of square meter; 1 dm² = 1e-02 m².

dm3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

dm³ - cubic decimeter: submultiple of cubic meter; 1 dm³ = 1e-03 m³.

dm4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

dm⁴ - quartic decimeter: submultiple of quartic meter; 1 dm⁴ = 1e-04 m⁴.

dm5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-05);

dm⁵ - quintic decimeter: submultiple of quintic meter; 1 dm⁵ = 1e-05 m⁵.

dm6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

dm⁶ - sextic decimeter: submultiple of sextic meter; 1 dm⁶ = 1e-06 m⁶.

ds : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-01);

ds - decisecond: submultiple of second; 1 ds = 1e-01 s.

ds2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

ds² - square decisecond: submultiple of square second; 1 ds² = 1e-02 s².

ds3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

ds³ - cubic decisecond: submultiple of cubic second; 1 ds³ = 1e-03 s³.

ds4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

ds⁴ - quartic decisecond: submultiple of quartic second; 1 ds⁴ = 1e-04 s⁴.

ds5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-05);

ds⁵ - quintic decisecond: submultiple of quintic second; 1 ds⁵ = 1e-05 s⁵.

ds6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

ds⁶ - sextic decisecond: submultiple of sextic second; 1 ds⁶ = 1e-06 s⁶.

ElectricPermittivity : TQuantity = (FDim: (FKilogram: -60; FMeter: -180; FSecond: 240; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 8.8541878188E-12);

Electric permittivity of free space ε₀ = 8.8541878188 × 10⁻¹² F·m⁻¹. Relates electric field to electric displacement field in a vacuum.

ElectronCharge : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.602176634E-19);

Elementary charge e = 1.602176634 × 10⁻¹⁹ C. Electric charge carried by a single proton; the fundamental unit of electric charge.

ElectronMass : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 9.1093837015E-31);

Electron rest mass m_e = 9.1093837015 × 10⁻³¹ kg. Rest mass of the electron.

FineStructureConstant : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 7.2973525643E-3);

Fine-structure constant α = 7.2973525643 × 10⁻³ (dimensionless). Characterises the strength of the electromagnetic interaction between elementary charged particles.

GeV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.602176634E-019 * 1e+09);

GeV - gigaelectronvolt: multiple of electronvolt; 1 GeV = 1e+09 eV.

GHz : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

GHz - gigahertz: multiple of hertz; 1 GHz = 1e+09 Hz.

GHz2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+18);

GHz² - square gigahertz: multiple of square hertz; 1 GHz² = 1e+18 Hz².

gigatonne : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E+03 * 1e+09);

gigatonne - gigatonne: multiple of tonne; 1 gigatonne = 1e+09 t.

GJ : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

GJ - gigajoule: multiple of joule; 1 GJ = 1e+09 J.

GJ2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+18);

GJ² - square gigajoule: multiple of square joule; 1 GJ² = 1e+18 J².

GN : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

GN - giganewton: multiple of newton; 1 GN = 1e+09 N.

GN2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 120; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+18);

GN² - square giganewton: multiple of square newton; 1 GN² = 1e+18 N².

Gohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

Gohm - gigaohm: multiple of ohm; 1 Gohm = 1e+09 Ω.

GPa : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

GPa - gigapascal: multiple of pascal; 1 GPa = 1e+09 Pa.

GW : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

GW - gigawatt: multiple of watt; 1 GW = 1e+09 W.

hA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

hA - hectoampere: multiple of ampere; 1 hA = 1e+02 A.

hA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+04);

hA² - square hectoampere: multiple of square ampere; 1 hA² = 1e+04 A².

hC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

hC - hectocoulomb: multiple of coulomb; 1 hC = 1e+02 C.

hC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+04);

hC² - square hectocoulomb: multiple of square coulomb; 1 hC² = 1e+04 C².

hmol : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 60; FCandela: 0; FSteradian: 0); FValue: 1e+02);

hmol - hectomole: multiple of mole; 1 hmol = 1e+02 mol.

hN : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+02);

hN - hectonewton: multiple of newton; 1 hN = 1e+02 N.

hN2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 120; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+04);

hN² - square hectonewton: multiple of square newton; 1 hN² = 1e+04 N².

InverseFineStructureConstant : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 137.035999177);

Inverse fine-structure constant α⁻¹ = 137.035999177 (dimensionless). Reciprocal of the fine-structure constant; often used in quantum electrodynamics.

kA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kA - kiloampere: multiple of ampere; 1 kA = 1e+03 A.

kA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kA² - square kiloampere: multiple of square ampere; 1 kA² = 1e+06 A².

kbar : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E+05 * 1e+03);

kbar - kilobar: multiple of bar; 1 kbar = 1e+03 bar.

kBq : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kBq - kilobequerel: multiple of bequerel; 1 kBq = 1e+03 Bq.

kC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kC - kilocoulomb: multiple of coulomb; 1 kC = 1e+03 C.

kC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kC² - square kilocoulomb: multiple of square coulomb; 1 kC² = 1e+06 C².

kcal : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 4.184 * 1e+03);

kcal - kilocalorie: multiple of calorie; 1 kcal = 1e+03 cal.

keV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.602176634E-019 * 1e+03);

keV - kiloelectronvolt: multiple of electronvolt; 1 keV = 1e+03 eV.

kGy : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kGy - kilogray: multiple of gray; 1 kGy = 1e+03 Gy.

kHz : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kHz - kilohertz: multiple of hertz; 1 kHz = 1e+03 Hz.

kHz2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kHz² - square kilohertz: multiple of square hertz; 1 kHz² = 1e+06 Hz².

kilotonne : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E+03 * 1e+03);

kilotonne - kilotonne: multiple of tonne; 1 kilotonne = 1e+03 t.

kJ : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kJ - kilojoule: multiple of joule; 1 kJ = 1e+03 J.

kJ2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kJ² - square kilojoule: multiple of square joule; 1 kJ² = 1e+06 J².

km : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

km - kilometer: multiple of meter; 1 km = 1e+03 m.

km2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

km² - square kilometer: multiple of square meter; 1 km² = 1e+06 m².

km3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+09);

km³ - cubic kilometer: multiple of cubic meter; 1 km³ = 1e+09 m³.

km4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

km⁴ - quartic kilometer: multiple of quartic meter; 1 km⁴ = 1e+12 m⁴.

km5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+15);

km⁵ - quintic kilometer: multiple of quintic meter; 1 km⁵ = 1e+15 m⁵.

km6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+18);

km⁶ - sextic kilometer: multiple of sextic meter; 1 km⁶ = 1e+18 m⁶.

kmol : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 60; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kmol - kilomole: multiple of mole; 1 kmol = 1e+03 mol.

kN : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kN - kilonewton: multiple of newton; 1 kN = 1e+03 N.

kN2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 120; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kN² - square kilonewton: multiple of square newton; 1 kN² = 1e+06 N².

kohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kohm - kiloohm: multiple of ohm; 1 kohm = 1e+03 Ω.

kPa : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kPa - kilopascal: multiple of pascal; 1 kPa = 1e+03 Pa.

kpsi : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 6894.75729316836 * 1e+03);

kpsi - kilopound per square inch: multiple of pound per square inch; 1 kpsi = 1e+03 psi.

kSv : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kSv - kilosievert: multiple of sievert; 1 kSv = 1e+03 Sv.

kV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kV - kilovolt: multiple of volt; 1 kV = 1e+03 V.

kV2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -360; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

kV² - square kilovolt: multiple of square volt; 1 kV² = 1e+06 V².

kW : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+03);

kW - kilowatt: multiple of watt; 1 kW = 1e+03 W.

mA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mA - milliampere: submultiple of ampere; 1 mA = 1e-03 A.

mA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mA² - square milliampere: submultiple of square ampere; 1 mA² = 1e-06 A².

MagneticPermeability : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.25663706212E-6);

Magnetic permeability of free space μ₀ = 1.25663706212 × 10⁻⁶ H·m⁻¹. Relates magnetic field intensity to magnetic flux density in a vacuum.

mbar : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E+05 * 1e-03);

mbar - millibar: submultiple of bar; 1 mbar = 1e-03 bar.

mBq : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mBq - millibequerel: submultiple of bequerel; 1 mBq = 1e-03 Bq.

mC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mC - millicoulomb: submultiple of coulomb; 1 mC = 1e-03 C.

mC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mC² - square millicoulomb: submultiple of square coulomb; 1 mC² = 1e-06 C².

Mcal : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 4.184 * 1e+06);

Mcal - megacalorie: multiple of calorie; 1 Mcal = 1e+06 cal.

megaohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

megaohm - megaohm: multiple of ohm; 1 megaohm = 1e+06 Ω.

megaparsec : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 3.08567758149137E+16 * 1e+06);

megaparsec - megaparsec: multiple of parsec; 1 megaparsec = 1e+06 pc.

megatonne : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E+03 * 1e+06);

megatonne - megatonne: multiple of tonne; 1 megatonne = 1e+06 t.

MeV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.602176634E-019 * 1e+06);

MeV - megaelectronvolt: multiple of electronvolt; 1 MeV = 1e+06 eV.

mF : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 240; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mF - millifarad: submultiple of farad; 1 mF = 1e-03 F.

mGy : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mGy - milligray: submultiple of gray; 1 mGy = 1e-03 Gy.

mH : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mH - millihenry: submultiple of henry; 1 mH = 1e-03 H.

MHz : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

MHz - megahertz: multiple of hertz; 1 MHz = 1e+06 Hz.

MHz2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

MHz² - square megahertz: multiple of square hertz; 1 MHz² = 1e+12 Hz².

miA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miA - microampere: submultiple of ampere; 1 miA = 1e-06 A.

miA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

miA² - square microampere: submultiple of square ampere; 1 miA² = 1e-12 A².

miBq : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miBq - microbequerel: submultiple of bequerel; 1 miBq = 1e-06 Bq.

miC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miC - microcoulomb: submultiple of coulomb; 1 miC = 1e-06 C.

miC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

miC² - square microcoulomb: submultiple of square coulomb; 1 miC² = 1e-12 C².

microsiemens : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 180; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

microsiemens - microsiemens: submultiple of siemens; 1 microsiemens = 1e-06 S.

miF : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 240; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miF - microfarad: submultiple of farad; 1 miF = 1e-06 F.

miGy : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miGy - microgray: submultiple of gray; 1 miGy = 1e-06 Gy.

miH : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miH - microhenry: submultiple of henry; 1 miH = 1e-06 H.

millisiemens : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 180; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

millisiemens - millisiemens: submultiple of siemens; 1 millisiemens = 1e-03 S.

milliW : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

milliW - milliwatt: submultiple of watt; 1 milliW = 1e-03 W.

mim : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mim - micrometer: submultiple of meter; 1 mim = 1e-06 m.

mim2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

mim² - square micrometer: submultiple of square meter; 1 mim² = 1e-12 m².

mim3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

mim³ - cubic micrometer: submultiple of cubic meter; 1 mim³ = 1e-18 m³.

mim4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

mim⁴ - quartic micrometer: submultiple of quartic meter; 1 mim⁴ = 1e-24 m⁴.

mim5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-30);

mim⁵ - quintic micrometer: submultiple of quintic meter; 1 mim⁵ = 1e-30 m⁵.

mim6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

mim⁶ - sextic micrometer: submultiple of sextic meter; 1 mim⁶ = 1e-36 m⁶.

miohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miohm - microohm: submultiple of ohm; 1 miohm = 1e-06 Ω.

miPl : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miPl - micropoiseuille: submultiple of poiseuille; 1 miPl = 1e-06 Pl.

mis : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mis - microsecond: submultiple of second; 1 mis = 1e-06 s.

mis2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

mis² - square microsecond: submultiple of square second; 1 mis² = 1e-12 s².

mis3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

mis³ - cubic microsecond: submultiple of cubic second; 1 mis³ = 1e-18 s³.

mis4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

mis⁴ - quartic microsecond: submultiple of quartic second; 1 mis⁴ = 1e-24 s⁴.

mis5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-30);

mis⁵ - quintic microsecond: submultiple of quintic second; 1 mis⁵ = 1e-30 s⁵.

mis6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

mis⁶ - sextic microsecond: submultiple of sextic second; 1 mis⁶ = 1e-36 s⁶.

miSv : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miSv - microsievert: submultiple of sievert; 1 miSv = 1e-06 Sv.

miT : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: -120; FAmpere: -60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

miT - microtesla: submultiple of tesla; 1 miT = 1e-06 T.

MJ : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

MJ - megajoule: multiple of joule; 1 MJ = 1e+06 J.

MJ2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

MJ² - square megajoule: multiple of square joule; 1 MJ² = 1e+12 J².

mL : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E-03 * 1e-03);

mL - millilitre: submultiple of litre; 1 mL = 1e-03 L.

Mly : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 9.4607304725808E+15 * 1e+06);

Mly - megalight year: multiple of light year; 1 Mly = 1e+06 ly.

mm : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mm - millimeter: submultiple of meter; 1 mm = 1e-03 m.

mm2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mm² - square millimeter: submultiple of square meter; 1 mm² = 1e-06 m².

mm3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

mm³ - cubic millimeter: submultiple of cubic meter; 1 mm³ = 1e-09 m³.

mm4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

mm⁴ - quartic millimeter: submultiple of quartic meter; 1 mm⁴ = 1e-12 m⁴.

mm5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-15);

mm⁵ - quintic millimeter: submultiple of quintic meter; 1 mm⁵ = 1e-15 m⁵.

mm6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

mm⁶ - sextic millimeter: submultiple of sextic meter; 1 mm⁶ = 1e-18 m⁶.

MN : TQuantity = (FDim: (FKilogram: 60; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

MN - meganewton: multiple of newton; 1 MN = 1e+06 N.

MN2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 120; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

MN² - square meganewton: multiple of square newton; 1 MN² = 1e+12 N².

mohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mohm - milliohm: submultiple of ohm; 1 mohm = 1e-03 Ω.

MolarGasConstant : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: 120; FAmpere: 0; FKelvin: -60; FMole: -60; FCandela: 0; FSteradian: 0); FValue: 8.314462618);

Molar gas constant R = 8.314462618 J·mol⁻¹·K⁻¹. Relates energy to temperature and amount of substance in the ideal gas law.

MPa : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

MPa - megapascal: multiple of pascal; 1 MPa = 1e+06 Pa.

mPl : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mPl - millipoiseuille: submultiple of poiseuille; 1 mPl = 1e-03 Pl.

ms : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

ms - millisecond: submultiple of second; 1 ms = 1e-03 s.

ms2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

ms² - square millisecond: submultiple of square second; 1 ms² = 1e-06 s².

ms3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

ms³ - cubic millisecond: submultiple of cubic second; 1 ms³ = 1e-09 s³.

ms4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

ms⁴ - quartic millisecond: submultiple of quartic second; 1 ms⁴ = 1e-12 s⁴.

ms5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-15);

ms⁵ - quintic millisecond: submultiple of quintic second; 1 ms⁵ = 1e-15 s⁵.

ms6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

ms⁶ - sextic millisecond: submultiple of sextic second; 1 ms⁶ = 1e-18 s⁶.

mSv : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mSv - millisievert: submultiple of sievert; 1 mSv = 1e-03 Sv.

mT : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: -120; FAmpere: -60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mT - millitesla: submultiple of tesla; 1 mT = 1e-03 T.

mV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

mV - millivolt: submultiple of volt; 1 mV = 1e-03 V.

mV2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -360; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mV² - square millivolt: submultiple of square volt; 1 mV² = 1e-06 V².

MW : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+06);

MW - megawatt: multiple of watt; 1 MW = 1e+06 W.

nA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nA - nanoampere: submultiple of ampere; 1 nA = 1e-09 A.

nA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

nA² - square nanoampere: submultiple of square ampere; 1 nA² = 1e-18 A².

nanosiemens : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 180; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nanosiemens - nanosiemens: submultiple of siemens; 1 nanosiemens = 1e-09 S.

nBq : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nBq - nanobequerel: submultiple of bequerel; 1 nBq = 1e-09 Bq.

nC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nC - nanocoulomb: submultiple of coulomb; 1 nC = 1e-09 C.

nC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

nC² - square nanocoulomb: submultiple of square coulomb; 1 nC² = 1e-18 C².

NeutronRestMass : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.67492750056E-27);

Neutron rest mass m_n = 1.67492750056 × 10⁻²⁷ kg. Rest mass of the neutron.

NewtonianConstantOfGravitation : TQuantity = (FDim: (FKilogram: -60; FMeter: 180; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 6.67430E-11);

Newtonian constant of gravitation G = 6.67430 × 10⁻¹¹ m³·kg⁻¹·s⁻². Proportionality constant in Newton's law of universal gravitation.

nF : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 240; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nF - nanofarad: submultiple of farad; 1 nF = 1e-09 F.

nGy : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nGy - nanogray: submultiple of gray; 1 nGy = 1e-09 Gy.

nH : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nH - nanohenry: submultiple of henry; 1 nH = 1e-09 H.

nm : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nm - nanometer: submultiple of meter; 1 nm = 1e-09 m.

nm2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

nm² - square nanometer: submultiple of square meter; 1 nm² = 1e-18 m².

nm3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-27);

nm³ - cubic nanometer: submultiple of cubic meter; 1 nm³ = 1e-27 m³.

nm4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

nm⁴ - quartic nanometer: submultiple of quartic meter; 1 nm⁴ = 1e-36 m⁴.

nm5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-45);

nm⁵ - quintic nanometer: submultiple of quintic meter; 1 nm⁵ = 1e-45 m⁵.

nm6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-54);

nm⁶ - sextic nanometer: submultiple of sextic meter; 1 nm⁶ = 1e-54 m⁶.

nohm : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: -120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nohm - nanoohm: submultiple of ohm; 1 nohm = 1e-09 Ω.

ns : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

ns - nanosecond: submultiple of second; 1 ns = 1e-09 s.

ns2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

ns² - square nanosecond: submultiple of square second; 1 ns² = 1e-18 s².

ns3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-27);

ns³ - cubic nanosecond: submultiple of cubic second; 1 ns³ = 1e-27 s³.

ns4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

ns⁴ - quartic nanosecond: submultiple of quartic second; 1 ns⁴ = 1e-36 s⁴.

ns5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-45);

ns⁵ - quintic nanosecond: submultiple of quintic second; 1 ns⁵ = 1e-45 s⁵.

ns6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-54);

ns⁶ - sextic nanosecond: submultiple of sextic second; 1 ns⁶ = 1e-54 s⁶.

nSv : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nSv - nanosievert: submultiple of sievert; 1 nSv = 1e-09 Sv.

nT : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: -120; FAmpere: -60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

nT - nanotesla: submultiple of tesla; 1 nT = 1e-09 T.

pBq : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

pBq - picobequerel: submultiple of bequerel; 1 pBq = 1e-12 Bq.

pC : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

pC - picocoulomb: submultiple of coulomb; 1 pC = 1e-12 C.

pC2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

pC² - square picocoulomb: submultiple of square coulomb; 1 pC² = 1e-24 C².

pF : TQuantity = (FDim: (FKilogram: -60; FMeter: -120; FSecond: 240; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

pF - picofarad: submultiple of farad; 1 pF = 1e-12 F.

picoA : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 60; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

picoA - picoampere: submultiple of ampere; 1 picoA = 1e-12 A.

picoA2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 0; FAmpere: 120; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

picoA² - square picoampere: submultiple of square ampere; 1 picoA² = 1e-24 A².

PlanckConstant : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 6.62607015E-34);

Planck constant h = 6.62607015 × 10⁻³⁴ J·s. Relates the energy of a photon to its frequency; fundamental constant of quantum mechanics.

pm : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

pm - picometer: submultiple of meter; 1 pm = 1e-12 m.

pm2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

pm² - square picometer: submultiple of square meter; 1 pm² = 1e-24 m².

pm3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 180; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

pm³ - cubic picometer: submultiple of cubic meter; 1 pm³ = 1e-36 m³.

pm4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 240; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-48);

pm⁴ - quartic picometer: submultiple of quartic meter; 1 pm⁴ = 1e-48 m⁴.

pm5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 300; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-60);

pm⁵ - quintic picometer: submultiple of quintic meter; 1 pm⁵ = 1e-60 m⁵.

pm6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 360; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-72);

pm⁶ - sextic picometer: submultiple of sextic meter; 1 pm⁶ = 1e-72 m⁶.

ProtonRestMass : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.67262192595E-27);

Proton rest mass m_p = 1.67262192595 × 10⁻²⁷ kg. Rest mass of the proton.

ps : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

ps - picosecond: submultiple of second; 1 ps = 1e-12 s.

ps2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

ps² - square picosecond: submultiple of square second; 1 ps² = 1e-24 s².

ps3 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-36);

ps³ - cubic picosecond: submultiple of cubic second; 1 ps³ = 1e-36 s³.

ps4 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-48);

ps⁴ - quartic picosecond: submultiple of quartic second; 1 ps⁴ = 1e-48 s⁴.

ps5 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 300; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-60);

ps⁵ - quintic picosecond: submultiple of quintic second; 1 ps⁵ = 1e-60 s⁵.

ps6 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: 360; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-72);

ps⁶ - sextic picosecond: submultiple of sextic second; 1 ps⁶ = 1e-72 s⁶.

ReducedPlanckConstant : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 6.62607015E-34/2/pi);

Reduced Planck constant ℏ = h / (2π) = 1.054571817 × 10⁻³⁴ J·s. Also called the Dirac constant; appears in quantum mechanics wherever angular frequency is used.

RydbergConstant : TQuantity = (FDim: (FKilogram: 0; FMeter: -60; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 10973731.568157);

Rydberg constant R∞ = 10973731.568157 m⁻¹. Relates the wavelengths of spectral lines of the hydrogen atom.

SoundIntensityReference : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1E-12);

Reference sound intensity I₀ = 10⁻¹² W·m⁻². Conventional threshold of human hearing at 1 kHz; used as the reference level for the decibel scale of sound intensity.

SpeedOfLight : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 299792458);

Speed of light in vacuum c = 299792458 m·s⁻¹. Exact defined value; maximum speed of propagation of any physical interaction.

SquaredSpeedOfLight : TQuantity = (FDim: (FKilogram: 0; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 8.98755178736818E+16);

Squared speed of light in vacuum c² = 8.98755178736818 × 10¹⁶ m²·s⁻². Appears in the mass-energy equivalence relation E = mc².

StandardAccelerationOfGravity : TQuantity = (FDim: (FKilogram: 0; FMeter: 60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 9.80665);

Standard acceleration of gravity g = 9.80665 m·s⁻². Conventional standard value of the acceleration due to Earth's gravity at sea level.

TeV : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.602176634E-019 * 1e+12);

TeV - teraelectronvolt: multiple of electronvolt; 1 TeV = 1e+12 eV.

THz : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -60; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

THz - terahertz: multiple of hertz; 1 THz = 1e+12 Hz.

THz2 : TQuantity = (FDim: (FKilogram: 0; FMeter: 0; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+24);

THz² - square terahertz: multiple of square hertz; 1 THz² = 1e+24 Hz².

TJ : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

TJ - terajoule: multiple of joule; 1 TJ = 1e+12 J.

TJ2 : TQuantity = (FDim: (FKilogram: 120; FMeter: 240; FSecond: -240; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+24);

TJ² - square terajoule: multiple of square joule; 1 TJ² = 1e+24 J².

TPa : TQuantity = (FDim: (FKilogram: 60; FMeter: -60; FSecond: -120; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

TPa - terapascal: multiple of pascal; 1 TPa = 1e+12 Pa.

TW : TQuantity = (FDim: (FKilogram: 60; FMeter: 120; FSecond: -180; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e+12);

TW - terawatt: multiple of watt; 1 TW = 1e+12 W.

UnifiedAtomicMassUnit : TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1.66053906892E-27);

Unified atomic mass unit u = 1.66053906892 × 10⁻²⁷ kg. Defined as one twelfth of the mass of a carbon-12 atom at rest.

Variables

A: TUnit absolute AmpereUnit;

A - ampere: SI base unit of electric current.

A2: TUnit absolute SquareAmpereUnit;

A² - square ampere: unit of square electric current.

Ampere: TUnit absolute AmpereUnit;

A - ampere: SI base unit of electric current.

AmperePerCubicMeter: TUnit absolute AmperePerCubicMeterUnit;

A/m³ - ampere per cubic meter.

AmperePerKilogram: TUnit absolute AmperePerKilogramUnit;

A/kg - ampere per kilogram.

AmperePerKilogramPerCubicMeter: TUnit absolute AmperePerKilogramPerCubicMeterUnit;

A/kg/m³ - ampere per kilogram per cubic meter.

AmperePerKilogramPerMeter: TUnit absolute AmperePerKilogramPerMeterUnit;

A/kg/m - ampere per kilogram per meter.

AmperePerKilogramPerSquareMeter: TUnit absolute AmperePerKilogramPerSquareMeterUnit;

A/kg/m² - ampere per kilogram per square meter.

AmperePerMeter: TUnit absolute AmperePerMeterUnit;

A/m - ampere per meter: SI unit of magnetic field strength.

AmperePerMole: TUnit absolute AmperePerMoleUnit;

A/mol - ampere per mole.

AmperePerSquareMeter: TUnit absolute AmperePerSquareMeterUnit;

A/m² - ampere per square meter: SI unit of current density.

AmpereSecond: TUnit absolute AmpereSecondUnit;

A·s - ampere second: SI unit of electric charge; equivalent to C.

angstrom: TFactoredUnit absolute AngstromUnit;

angstrom - angstrom: unit of length used in atomic physics; 1 angstrom = 1E-10 m.

Astronomical: TFactoredUnit absolute AstronomicalUnit;

au - astronomical unit: unit of length used in astronomy; 1 au = 149597870691 m.

atm: TFactoredUnit absolute AtmosphereUnit;

atm - atmosphere: unit of pressure; 1 atm = 101325 Pa.

Atmosphere: TFactoredUnit absolute AtmosphereUnit;

atm - atmosphere: unit of pressure; 1 atm = 101325 Pa.

au: TFactoredUnit absolute AstronomicalUnit;

au - astronomical unit: unit of length used in astronomy; 1 au = 149597870691 m.

bar: TFactoredUnit absolute BarUnit;

bar - bar: unit of pressure; 1 bar = 1e5 Pa.

Bequerel: TUnit absolute BequerelUnit;

Bq - becquerel: SI derived unit of radioactivity; 1 Bq = 1 decay/s.

Bq: TUnit absolute BequerelUnit;

Bq - becquerel: SI derived unit of radioactivity; 1 Bq = 1 decay/s.

C: TUnit absolute CoulombUnit;

C - coulomb: SI derived unit of electric charge; 1 C = 1 A·s.

C2: TUnit absolute SquareCoulombUnit;

C² - square coulomb: SI unit of square electric charge.

cal: TFactoredUnit absolute CalorieUnit;

cal - calorie: unit of energy; 1 cal = 4.184 J.

Calorie: TFactoredUnit absolute CalorieUnit;

cal - calorie: unit of energy; 1 cal = 4.184 J.

Candela: TUnit absolute CandelaUnit;

cd - candela: SI base unit of luminous intensity.

CandelaPerCubicMeter: TUnit absolute CandelaPerCubicMeterUnit;

cd/m³ - candela per cubic meter.

CandelaPerKilogram: TUnit absolute CandelaPerKilogramUnit;

cd/kg - candela per kilogram.

CandelaPerKilogramPerSquareMeter: TUnit absolute CandelaPerKilogramPerSquareMeterUnit;

cd/kg/m² - candela per kilogram per square meter.

CandelaPerSquareMeter: TUnit absolute CandelaPerSquareMeterUnit;

cd/m² - candela per square meter: SI unit of luminance.

CandelaSteradian: TUnit absolute CandelaSteradianUnit;

cd·sr - candela steradian: SI unit of luminous flux; equivalent to lm.

CandelaSteradianPerCubicMeter: TUnit absolute CandelaSteradianPerCubicMeterUnit;

cd.sr/m³ - candela steradian per cubic meter.

CandelaSteradianPerKilogram: TUnit absolute CandelaSteradianPerKilogramUnit;

cd.sr/kg - candela steradian per kilogram.

CandelaSteradianPerKilogramPerSquareMeter: TUnit absolute CandelaSteradianPerKilogramPerSquareMeterUnit;

cd.sr/kg/m² - candela steradian per kilogram per square meter.

CandelaSteradianPerSquareMeter: TUnit absolute CandelaSteradianPerSquareMeterUnit;

cd·sr/m² - candela steradian per square meter: SI unit of illuminance; equivalent to lx.

cd: TUnit absolute CandelaUnit;

cd - candela: SI base unit of luminous intensity.

cg: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-05);

cg - kilogram: submultiple of kilogram; 1 cg = 1e-05 kg.

cg2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-10);

cg² - square kilogram: submultiple of square kilogram; 1 cg² = 1e-10 kg².

Coulomb: TUnit absolute CoulombUnit;

C - coulomb: SI derived unit of electric charge; 1 C = 1 A·s.

CoulombMeter: TUnit absolute CoulombMeterUnit;

C·m - coulomb meter: SI unit of electric dipole moment.

CoulombPerCubicMeter: TUnit absolute CoulombPerCubicMeterUnit;

C/m³ - coulomb per cubic meter: SI unit of charge density.

CoulombPerKilogram: TUnit absolute CoulombPerKilogramUnit;

C/kg - coulomb per kilogram: SI unit of radiation exposure.

CoulombPerMeter: TUnit absolute CoulombPerMeterUnit;

C/m - coulomb per meter: SI unit of linear charge density.

CoulombPerMole: TUnit absolute CoulombPerMoleUnit;

C/mol - coulomb per mole: SI unit of molar charge.

CoulombPerSquareMeter: TUnit absolute CoulombPerSquareMeterUnit;

C/m² - coulomb per square meter: SI unit of surface charge density.

CoulombPerVolt: TUnit absolute CoulombPerVoltUnit;

C/V - coulomb per volt: SI unit of electric capacitance; equivalent to F.

CubicAmpere: TUnit absolute CubicAmpereUnit;

A³ - cubic ampere.

CubicCandela: TUnit absolute CubicCandelaUnit;

cd³ - cubic candela.

CubicFoot: TFactoredUnit absolute CubicFootUnit;

ft³ - cubic foot: imperial unit of volume; 1 ft³ = 0.028316846592 m³.

CubicInch: TFactoredUnit absolute CubicInchUnit;

in³ - cubic inch: imperial unit of volume; 1 in³ = 1.6387064e-5 m³.

CubicKelvin: TUnit absolute CubicKelvinUnit;

K³ - cubic kelvin: unit of cubic temperature.

CubicKilogram: TUnit absolute CubicKilogramUnit;

kg³ - cubic kilogram.

CubicMeter: TUnit absolute CubicMeterUnit;

m³ - cubic meter: SI derived unit of volume.

CubicMeterPerAmpere: TUnit absolute CubicMeterPerAmpereUnit;

m³/A - cubic meter per ampere.

CubicMeterPerCandela: TUnit absolute CubicMeterPerCandelaUnit;

m³/cd - cubic meter per candela.

CubicMeterPerCandelaPerSteradian: TUnit absolute CubicMeterPerCandelaPerSteradianUnit;

m³/cd/sr - cubic meter per candela per steradian.

CubicMeterPerCubicSecond: TUnit absolute CubicMeterPerCubicSecondUnit;

m³/s³ - cubic meter per cubic second.

CubicMeterPerCubicSecondPerAmpere: TUnit absolute CubicMeterPerCubicSecondPerAmpereUnit;

m³/s³/A - cubic meter per cubic second per ampere.

CubicMeterPerCubicSecondPerSquareAmpere: TUnit absolute CubicMeterPerCubicSecondPerSquareAmpereUnit;

m³/s³/A² - cubic meter per cubic second per square ampere.

CubicMeterPerKilogram: TUnit absolute CubicMeterPerKilogramUnit;

m³/kg - cubic meter per kilogram: SI unit of specific volume.

CubicMeterPerKilogramPerSquareSecond: TUnit absolute CubicMeterPerKilogramPerSquareSecondUnit;

m³/kg/s² - cubic meter per kilogram per square second: SI unit of gravitational constant; equivalent to N·m²/kg².

CubicMeterPerMole: TUnit absolute CubicMeterPerMoleUnit;

m³/mol - cubic meter per mole.

CubicMeterPerQuarticSecond: TUnit absolute CubicMeterPerQuarticSecondUnit;

m³/s⁴ - cubic meter per quartic second.

CubicMeterPerQuarticSecondPerAmpere: TUnit absolute CubicMeterPerQuarticSecondPerAmpereUnit;

m³/s⁴/A - cubic meter per quartic second per ampere.

CubicMeterPerQuarticSecondPerSquareAmpere: TUnit absolute CubicMeterPerQuarticSecondPerSquareAmpereUnit;

m³/s⁴/A² - cubic meter per quartic second per square ampere.

CubicMeterPerSecond: TUnit absolute CubicMeterPerSecondUnit;

m³/s - cubic meter per second: SI unit of volumetric flow rate.

CubicMeterPerSecondPerAmpere: TUnit absolute CubicMeterPerSecondPerAmpereUnit;

m³/s/A - cubic meter per second per ampere.

CubicMeterPerSecondPerCandela: TUnit absolute CubicMeterPerSecondPerCandelaUnit;

m³/s/cd - cubic meter per second per candela.

CubicMeterPerSecondPerCandelaPerSteradian: TUnit absolute CubicMeterPerSecondPerCandelaPerSteradianUnit;

m³/s/cd/sr - cubic meter per second per candela per steradian.

CubicMeterPerSecondPerSteradian: TUnit absolute CubicMeterPerSecondPerSteradianUnit;

m³/s/sr - cubic meter per second per steradian.

CubicMeterPerSquareAmpere: TUnit absolute CubicMeterPerSquareAmpereUnit;

m³/A² - cubic meter per square ampere.

CubicMeterPerSquareSecond: TUnit absolute CubicMeterPerSquareSecondUnit;

m³/s² - cubic meter per square second.

CubicMeterPerSteradian: TUnit absolute CubicMeterPerSteradianUnit;

m³/sr - cubic meter per steradian.

CubicMeterSecond: TUnit absolute CubicMeterSecondUnit;

m³.s - cubic meter second.

CubicMeterSecondPerMole: TUnit absolute CubicMeterSecondPerMoleUnit;

m³.s/mol - cubic meter second per mole.

CubicMeterSteradian: TUnit absolute CubicMeterSteradianUnit;

m³·sr - cubic meter steradian.

CubicMole: TUnit absolute CubicMoleUnit;

mol³ - cubic mole.

CubicRootAmpere: TUnit absolute CubicRootAmpereUnit;

∛A - cubic root ampere.

CubicRootCandela: TUnit absolute CubicRootCandelaUnit;

∛cd - cubic root candela.

CubicRootKelvin: TUnit absolute CubicRootKelvinUnit;

∛K - cubic root kelvin.

CubicRootKilogram: TUnit absolute CubicRootKilogramUnit;

∛kg - cubic root kilogram.

CubicRootMeter: TUnit absolute CubicRootMeterUnit;

∛m - cubic root meter.

CubicRootMole: TUnit absolute CubicRootMoleUnit;

∛mol - cubic root mole.

CubicRootSecond: TUnit absolute CubicRootSecondUnit;

∛s - cubic root second.

CubicRootSteradian: TUnit absolute CubicRootSteradianUnit;

∛sr - cubic root steradian.

CubicSecond: TUnit absolute CubicSecondUnit;

s³ - cubic second: SI unit of cubic time.

CubicSecondAmpere: TUnit absolute CubicSecondAmpereUnit;

s³.A - cubic second ampere.

CubicSecondAmperePerCubicMeter: TUnit absolute CubicSecondAmperePerCubicMeterUnit;

s³.A/m³ - cubic second ampere per cubic meter.

CubicSecondAmperePerKilogram: TUnit absolute CubicSecondAmperePerKilogramUnit;

s³.A/kg - cubic second ampere per kilogram.

CubicSecondAmperePerKilogramPerCubicMeter: TUnit absolute CubicSecondAmperePerKilogramPerCubicMeterUnit;

s³.A/kg/m³ - cubic second ampere per kilogram per cubic meter.

CubicSecondAmperePerKilogramPerSquareMeter: TUnit absolute CubicSecondAmperePerKilogramPerSquareMeterUnit;

s³.A/kg/m² - cubic second ampere per kilogram per square meter.

CubicSecondAmperePerMeter: TUnit absolute CubicSecondAmperePerMeterUnit;

s³.A/m - cubic second ampere per meter.

CubicSecondAmperePerSquareMeter: TUnit absolute CubicSecondAmperePerSquareMeterUnit;

s³.A/m² - cubic second ampere per square meter.

CubicSecondCandela: TUnit absolute CubicSecondCandelaUnit;

s³.cd - cubic second candela.

CubicSecondCandelaPerKilogram: TUnit absolute CubicSecondCandelaPerKilogramUnit;

s³.cd/kg - cubic second candela per kilogram.

CubicSecondCandelaPerKilogramPerSquareMeter: TUnit absolute CubicSecondCandelaPerKilogramPerSquareMeterUnit;

s³.cd/kg/m² - cubic second candela per kilogram per square meter.

CubicSecondCandelaPerSquareMeter: TUnit absolute CubicSecondCandelaPerSquareMeterUnit;

s³.cd/m² - cubic second candela per square meter.

CubicSecondCandelaSteradian: TUnit absolute CubicSecondCandelaSteradianUnit;

s³.cd.sr - cubic second candela steradian.

CubicSecondCandelaSteradianPerKilogram: TUnit absolute CubicSecondCandelaSteradianPerKilogramUnit;

s³.cd.sr/kg - cubic second candela steradian per kilogram.

CubicSecondCandelaSteradianPerSquareMeter: TUnit absolute CubicSecondCandelaSteradianPerSquareMeterUnit;

s³.cd.sr/m² - cubic second candela steradian per square meter.

CubicSecondKelvin: TUnit absolute CubicSecondKelvinUnit;

s³.K - cubic second kelvin.

CubicSecondKelvinPerKilogram: TUnit absolute CubicSecondKelvinPerKilogramUnit;

s³.K/kg - cubic second kelvin per kilogram.

CubicSecondKelvinPerMeter: TUnit absolute CubicSecondKelvinPerMeterUnit;

s³.K/m - cubic second kelvin per meter.

CubicSecondKelvinPerSquareMeter: TUnit absolute CubicSecondKelvinPerSquareMeterUnit;

s³.K/m² - cubic second kelvin per square meter.

CubicSecondPerCubicMeter: TUnit absolute CubicSecondPerCubicMeterUnit;

s³/m³ - cubic second per cubic meter.

CubicSecondPerKilogram: TUnit absolute CubicSecondPerKilogramUnit;

s³/kg - cubic second per kilogram.

CubicSecondPerKilogramPerCubicMeter: TUnit absolute CubicSecondPerKilogramPerCubicMeterUnit;

s³/kg/m³ - cubic second per kilogram per cubic meter.

CubicSecondPerMeter: TUnit absolute CubicSecondPerMeterUnit;

s³/m - cubic second per meter.

CubicSecondPerSquareMeter: TUnit absolute CubicSecondPerSquareMeterUnit;

s³/m² - cubic second per square meter.

CubicSecondQuarticKelvin: TUnit absolute CubicSecondQuarticKelvinUnit;

s³.K⁴ - cubic second quartic kelvin.

CubicSecondQuarticKelvinPerKilogram: TUnit absolute CubicSecondQuarticKelvinPerKilogramUnit;

s³.K⁴/kg - cubic second quartic kelvin per kilogram.

CubicSecondQuarticKelvinPerKilogramPerSquareMeter: TUnit absolute CubicSecondQuarticKelvinPerKilogramPerSquareMeterUnit;

s³.K⁴/kg/m² - cubic second quartic kelvin per kilogram per square meter.

CubicSecondQuarticKelvinPerSquareMeter: TUnit absolute CubicSecondQuarticKelvinPerSquareMeterUnit;

s³.K⁴/m² - cubic second quartic kelvin per square meter.

CubicSecondSquareAmpere: TUnit absolute CubicSecondSquareAmpereUnit;

s³.A² - cubic second square ampere.

CubicSecondSquareAmperePerCubicMeter: TUnit absolute CubicSecondSquareAmperePerCubicMeterUnit;

s³.A²/m³ - cubic second square ampere per cubic meter.

CubicSecondSquareAmperePerKilogram: TUnit absolute CubicSecondSquareAmperePerKilogramUnit;

s³.A²/kg - cubic second square ampere per kilogram.

CubicSecondSquareAmperePerSquareMeter: TUnit absolute CubicSecondSquareAmperePerSquareMeterUnit;

s³.A²/m² - cubic second square ampere per square meter.

CubicSecondSteradian: TUnit absolute CubicSecondSteradianUnit;

s³.sr - cubic second steradian.

CubicSecondSteradianPerKilogram: TUnit absolute CubicSecondSteradianPerKilogramUnit;

s³.sr/kg - cubic second steradian per kilogram.

CubicSecondSteradianPerKilogramPerMeter: TUnit absolute CubicSecondSteradianPerKilogramPerMeterUnit;

s³.sr/kg/m - cubic second steradian per kilogram per meter.

CubicSecondSteradianPerKilogramPerSquareMeter: TUnit absolute CubicSecondSteradianPerKilogramPerSquareMeterUnit;

s³.sr/kg/m² - cubic second steradian per kilogram per square meter.

CubicSecondSteradianPerMeter: TUnit absolute CubicSecondSteradianPerMeterUnit;

s³.sr/m - cubic second steradian per meter.

CubicSecondSteradianPerSquareMeter: TUnit absolute CubicSecondSteradianPerSquareMeterUnit;

s³.sr/m² - cubic second steradian per square meter.

CubicSteradian: TUnit absolute CubicSteradianUnit;

sr³ - cubic steradian.

CubicYard: TFactoredUnit absolute CubicYardUnit;

yd³ - cubic yard: imperial unit of volume; 1 yd³ = 0.764554857984 m³.

dag: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

dag - kilogram: submultiple of kilogram; 1 dag = 1e-02 kg.

dag2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

dag² - square kilogram: submultiple of square kilogram; 1 dag² = 1e-04 kg².

dalton: TFactoredUnit absolute DaltonUnit;

Da - dalton: unit of mass; 1 Da = 1.6605389e-27 kg.

day: TFactoredUnit absolute DayUnit;

day - day: unit of time; 1 day = 86400 s.

day2: TFactoredUnit absolute SquareDayUnit;

day² - square day: unit of square time; 1 day² = 86400² s².

dB: TUnit absolute DecibelUnit;

dB - decibel: logarithmic unit expressing the ratio of two quantities.

Decibel: TUnit absolute DecibelUnit;

dB - decibel: logarithmic unit expressing the ratio of two quantities.

deg: TFactoredUnit absolute DegreeUnit;

deg - degree: unit of plane angle; 1° = π/180 rad.

deg2: TFactoredUnit absolute SquareDegreeUnit;

deg² - square degree: unit of solid angle; 1 deg² = (pi/180)² sr.

degC: TDegreeCelsiusUnit absolute DegreeCelsiusUnit;

°C - degree Celsius: unit of temperature; T(°C) = T(K) - 273.15.

degF: TDegreeFahrenheitUnit absolute DegreeFahrenheitUnit;

°F - degree Fahrenheit: unit of temperature; T(°F) = T(K) * 9/5 - 459.67.

Degree: TFactoredUnit absolute DegreeUnit;

deg - degree: unit of plane angle; 1° = π/180 rad.

dg: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-04);

dg - kilogram: submultiple of kilogram; 1 dg = 1e-04 kg.

dg2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-08);

dg² - square kilogram: submultiple of square kilogram; 1 dg² = 1e-08 kg².

Dioptre: TUnit absolute DioptreUnit;

dpt - dioptre: SI unit of optical power; 1 dpt = 1/m.

Electronvolt: TFactoredUnit absolute ElectronvoltUnit;

eV - electronvolt: unit of energy; 1 eV = 1.602176634e-19 J.

eV: TFactoredUnit absolute ElectronvoltUnit;

eV - electronvolt: unit of energy; 1 eV = 1.602176634e-19 J.

F: TUnit absolute FaradUnit;

F - farad: SI derived unit of electric capacitance; 1 F = 1 C/V.

Farad: TUnit absolute FaradUnit;

F - farad: SI derived unit of electric capacitance; 1 F = 1 C/V.

FaradPerMeter: TUnit absolute FaradPerMeterUnit;

F/m - farad per meter: SI unit of electric permittivity.

Foot: TFactoredUnit absolute FootUnit;

ft - foot: imperial unit of length; 1 ft = 0.3048 m.

ft: TFactoredUnit absolute FootUnit;

ft - foot: imperial unit of length; 1 ft = 0.3048 m.

ft2: TFactoredUnit absolute SquareFootUnit;

ft² - square foot: imperial unit of area; 1 ft² = 0.09290304 m².

ft3: TFactoredUnit absolute CubicFootUnit;

ft³ - cubic foot: imperial unit of volume; 1 ft³ = 0.028316846592 m³.

g: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-03);

g - kilogram: submultiple of kilogram; 1 g = 1e-03 kg.

g2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

g² - square kilogram: submultiple of square kilogram; 1 g² = 1e-06 kg².

gal: TFactoredUnit absolute GallonUnit;

gal - gallon: unit of volume; 1 gal = 3.785412e-3 m³.

Gallon: TFactoredUnit absolute GallonUnit;

gal - gallon: unit of volume; 1 gal = 3.785412e-3 m³.

Gray: TUnit absolute GrayUnit;

Gy - gray: SI derived unit of absorbed radiation dose; 1 Gy = 1 J/kg.

GrayPerSecond: TUnit absolute GrayPerSecondUnit;

Gy/s - gray per second: SI unit of absorbed dose rate.

Gy: TUnit absolute GrayUnit;

Gy - gray: SI derived unit of absorbed radiation dose; 1 Gy = 1 J/kg.

H: TUnit absolute HenryUnit;

H - henry: SI derived unit of inductance; 1 H = 1 Wb/A.

Henry: TUnit absolute HenryUnit;

H - henry: SI derived unit of inductance; 1 H = 1 Wb/A.

HenryPerMeter: TUnit absolute HenryPerMeterUnit;

H/m - henry per meter: SI unit of magnetic permeability.

Hertz: TUnit absolute HertzUnit;

Hz - hertz: SI derived unit of frequency; 1 Hz = 1/s.

hg: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-01);

hg - kilogram: submultiple of kilogram; 1 hg = 1e-01 kg.

hg2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-02);

hg² - square kilogram: submultiple of square kilogram; 1 hg² = 1e-02 kg².

Hour: TFactoredUnit absolute HourUnit;

hr - hour: unit of time; 1 hr = 3600 s.

hr: TFactoredUnit absolute HourUnit;

hr - hour: unit of time; 1 hr = 3600 s.

hr2: TFactoredUnit absolute SquareHourUnit;

hr² - square hour: unit of square time; 1 hr² = 3600² s².

Hz: TUnit absolute HertzUnit;

Hz - hertz: SI derived unit of frequency; 1 Hz = 1/s.

Hz2: TUnit absolute SquareHertzUnit;

Hz² - square hertz: unit of square frequency; 1 Hz² = 1/s².

inch: TFactoredUnit absolute InchUnit;

in - inch: imperial unit of length; 1 inch = 0.0254 m.

inch2: TFactoredUnit absolute SquareInchUnit;

in² - square inch: imperial unit of area; 1 in² = 6.4516e-4 m².

inch3: TFactoredUnit absolute CubicInchUnit;

in³ - cubic inch: imperial unit of volume; 1 in³ = 1.6387064e-5 m³.

J: TUnit absolute JouleUnit;

J - joule: SI derived unit of energy; 1 J = 1 kg·m²/s².

J2: TUnit absolute SquareJouleUnit;

J² - square joule.

Joule: TUnit absolute JouleUnit;

J - joule: SI derived unit of energy; 1 J = 1 kg·m²/s².

JoulePerCoulomb: TUnit absolute JoulePerCoulombUnit;

J/C - joule per coulomb: SI unit of electric potential; equivalent to V.

JoulePerCubicMeter: TUnit absolute JoulePerCubicMeterUnit;

J/m³ - joule per cubic meter: SI unit of energy density; equivalent to Pa.

JoulePerHertz: TUnit absolute JoulePerHertzUnit;

J/Hz - joule per hertz: SI unit of action; equivalent to J·s.

JoulePerKelvin: TUnit absolute JoulePerKelvinUnit;

J/K - joule per kelvin: SI unit of heat capacity and entropy.

JoulePerKilogram: TUnit absolute JoulePerKilogramUnit;

J/kg - joule per kilogram: SI unit of specific energy; equivalent to m²/s².

JoulePerKilogramPerKelvin: TUnit absolute JoulePerKilogramPerKelvinUnit;

J/kg/K - joule per kilogram per kelvin: SI unit of specific heat capacity.

JoulePerMole: TUnit absolute JoulePerMoleUnit;

J/mol - joule per mole: SI unit of molar energy.

JoulePerMolePerKelvin: TUnit absolute JoulePerMolePerKelvinUnit;

J/mol/K - joule per mole per kelvin: SI unit of molar heat capacity.

JoulePerRadian: TUnit absolute JoulePerRadianUnit;

J/rad - joule per radian: SI unit of torque per radian.

JoulePerSquareMeter: TUnit absolute JoulePerSquareMeterUnit;

J/m² - joule per square meter: SI unit of surface energy and fluence.

JoulePerSquareMeterPerHertz: TUnit absolute JoulePerSquareMeterPerHertzUnit;

J/m²/Hz - joule per square meter per hertz: SI unit of spectral fluence.

JoulePerTesla: TUnit absolute JoulePerTeslaUnit;

J/T - joule per tesla: SI unit of magnetic moment; equivalent to m²·A.

JouleSecond: TUnit absolute JouleSecondUnit;

J·s - joule second: SI unit of action.

K: TUnit absolute KelvinUnit;

K - kelvin: SI base unit of thermodynamic temperature.

K2: TUnit absolute SquareKelvinUnit;

K² - square kelvin: unit of square temperature.

K3: TUnit absolute CubicKelvinUnit;

K³ - cubic kelvin: unit of cubic temperature.

K4: TUnit absolute QuarticKelvinUnit;

K⁴ - quartic kelvin: unit of quartic temperature.

kat: TUnit absolute KatalUnit;

kat - katal: SI derived unit of catalytic activity; 1 kat = 1 mol/s.

Katal: TUnit absolute KatalUnit;

kat - katal: SI derived unit of catalytic activity; 1 kat = 1 mol/s.

KatalPerCubicMeter: TUnit absolute KatalPerCubicMeterUnit;

kat/m³ - katal per cubic meter: SI unit of catalytic activity concentration.

Kelvin: TUnit absolute KelvinUnit;

K - kelvin: SI base unit of thermodynamic temperature.

KelvinMolePerKilogram: TUnit absolute KelvinMolePerKilogramUnit;

K.mol/kg - kelvin mole per kilogram.

KelvinMolePerKilogramPerSquareMeter: TUnit absolute KelvinMolePerKilogramPerSquareMeterUnit;

K.mol/kg/m² - kelvin mole per kilogram per square meter.

KelvinMolePerSquareMeter: TUnit absolute KelvinMolePerSquareMeterUnit;

K.mol/m² - kelvin mole per square meter.

KelvinPerKilogram: TUnit absolute KelvinPerKilogramUnit;

K/kg - kelvin per kilogram.

KelvinPerKilogramPerMeter: TUnit absolute KelvinPerKilogramPerMeterUnit;

K/kg/m - kelvin per kilogram per meter.

KelvinPerKilogramPerSquareMeter: TUnit absolute KelvinPerKilogramPerSquareMeterUnit;

K/kg/m² - kelvin per kilogram per square meter.

KelvinPerMeter: TUnit absolute KelvinPerMeterUnit;

K/m - kelvin per meter: SI unit of temperature gradient.

KelvinPerSquareMeter: TUnit absolute KelvinPerSquareMeterUnit;

K/m² - kelvin per square meter.

KelvinPerWatt: TUnit absolute KelvinPerWattUnit;

K/W - kelvin per watt: SI unit of thermal resistance.

kg: TUnit absolute KilogramUnit;

kg - kilogram: SI base unit of mass.

kg2: TUnit absolute SquareKilogramUnit;

kg² - square kilogram: unit of square mass.

Kilogram: TUnit absolute KilogramUnit;

kg - kilogram: SI base unit of mass.

KilogramCubicMeter: TUnit absolute KilogramCubicMeterUnit;

kg.m³ - kilogram cubic meter.

KilogramCubicMeterPerAmpere: TUnit absolute KilogramCubicMeterPerAmpereUnit;

kg.m³/A - kilogram cubic meter per ampere.

KilogramCubicMeterPerCubicSecond: TUnit absolute KilogramCubicMeterPerCubicSecondUnit;

kg.m³/s³ - kilogram cubic meter per cubic second.

KilogramCubicMeterPerQuarticSecond: TUnit absolute KilogramCubicMeterPerQuarticSecondUnit;

kg.m³/s⁴ - kilogram cubic meter per quartic second.

KilogramCubicMeterPerSquareAmpere: TUnit absolute KilogramCubicMeterPerSquareAmpereUnit;

kg.m³/A² - kilogram cubic meter per square ampere.

KilogramCubicMeterPerSquareSecond: TUnit absolute KilogramCubicMeterPerSquareSecondUnit;

kg·m³/s² - kilogram cubic meter per square second: SI unit of force-area product; equivalent to N·m².

KilogramKelvin: TUnit absolute KilogramKelvinUnit;

kg·K - kilogram kelvin.

KilogramMeter: TUnit absolute KilogramMeterUnit;

kg·m - kilogram meter.

KilogramMeterPerAmpere: TUnit absolute KilogramMeterPerAmpereUnit;

kg.m/A - kilogram meter per ampere.

KilogramMeterPerCubicSecond: TUnit absolute KilogramMeterPerCubicSecondUnit;

kg·m/s³ - kilogram meter per cubic second: SI unit of linear power density; equivalent to W/m.

KilogramMeterPerCubicSecondPerKelvin: TUnit absolute KilogramMeterPerCubicSecondPerKelvinUnit;

kg·m/s³/K - kilogram meter per cubic second per kelvin: SI unit of thermal conductivity; equivalent to W/m/K.

KilogramMeterPerKelvin: TUnit absolute KilogramMeterPerKelvinUnit;

kg.m/K - kilogram meter per kelvin.

KilogramMeterPerQuarticSecond: TUnit absolute KilogramMeterPerQuarticSecondUnit;

kg.m/s⁴ - kilogram meter per quartic second.

KilogramMeterPerSecond: TUnit absolute KilogramMeterPerSecondUnit;

kg·m/s - kilogram meter per second: SI unit of linear momentum.

KilogramMeterPerSquareAmpere: TUnit absolute KilogramMeterPerSquareAmpereUnit;

kg.m/A² - kilogram meter per square ampere.

KilogramMeterPerSquareSecond: TUnit absolute KilogramMeterPerSquareSecondUnit;

kg·m/s² - kilogram meter per square second: SI unit of force; equivalent to N.

KilogramMeterPerSteradian: TUnit absolute KilogramMeterPerSteradianUnit;

kg.m/sr - kilogram meter per steradian.

KilogramPerAmpere: TUnit absolute KilogramPerAmpereUnit;

kg/A - kilogram per ampere.

KilogramPerAmperePerSquareSecond: TUnit absolute KilogramPerAmperePerSquareSecondUnit;

kg/A/s² - kilogram per ampere per square second: SI unit of magnetic flux density; equivalent to T.

KilogramPerCandela: TUnit absolute KilogramPerCandelaUnit;

kg/cd - kilogram per candela.

KilogramPerCandelaPerSteradian: TUnit absolute KilogramPerCandelaPerSteradianUnit;

kg/cd/sr - kilogram per candela per steradian.

KilogramPerCubicMeter: TUnit absolute KilogramPerCubicMeterUnit;

kg/m³ - kilogram per cubic meter: SI unit of volumetric mass density.

KilogramPerCubicSecond: TUnit absolute KilogramPerCubicSecondUnit;

kg/s³ - kilogram per cubic second: SI unit of irradiance; equivalent to W/m².

KilogramPerCubicSecondPerAmpere: TUnit absolute KilogramPerCubicSecondPerAmpereUnit;

kg/s³/A - kilogram per cubic second per ampere.

KilogramPerCubicSecondPerCandela: TUnit absolute KilogramPerCubicSecondPerCandelaUnit;

kg/s³/cd - kilogram per cubic second per candela.

KilogramPerCubicSecondPerCandelaPerSteradian: TUnit absolute KilogramPerCubicSecondPerCandelaPerSteradianUnit;

kg/s³/cd/sr - kilogram per cubic second per candela per steradian.

KilogramPerCubicSecondPerKelvin: TUnit absolute KilogramPerCubicSecondPerKelvinUnit;

kg/s³/K - kilogram per cubic second per kelvin: SI unit of heat transfer coefficient; equivalent to W/m²/K.

KilogramPerCubicSecondPerSquareAmpere: TUnit absolute KilogramPerCubicSecondPerSquareAmpereUnit;

kg/s³/A² - kilogram per cubic second per square ampere.

KilogramPerKelvin: TUnit absolute KilogramPerKelvinUnit;

kg/K - kilogram per kelvin.

KilogramPerKelvinPerMole: TUnit absolute KilogramPerKelvinPerMoleUnit;

kg/K/mol - kilogram per kelvin per mole.

KilogramPerMeter: TUnit absolute KilogramPerMeterUnit;

kg/m - kilogram per meter: SI unit of linear mass density.

KilogramPerMeterPerSecond: TUnit absolute KilogramPerMeterPerSecondUnit;

kg/m/s - kilogram per meter per second: SI unit of dynamic viscosity; equivalent to Pl.

KilogramPerMeterPerSquareSecond: TUnit absolute KilogramPerMeterPerSquareSecondUnit;

kg/m/s² - kilogram per meter per square second: SI unit of pressure; equivalent to Pa.

KilogramPerMeterPerSteradian: TUnit absolute KilogramPerMeterPerSteradianUnit;

kg/m/sr - kilogram per meter per steradian.

KilogramPerMole: TUnit absolute KilogramPerMoleUnit;

kg/mol - kilogram per mole.

KilogramPerQuarticKelvin: TUnit absolute KilogramPerQuarticKelvinUnit;

kg/K⁴ - kilogram per quartic kelvin.

KilogramPerQuarticMeter: TUnit absolute KilogramPerQuarticMeterUnit;

kg/m⁴ - kilogram per quartic meter: SI unit of mass per quartic length.

KilogramPerQuarticMeterPerSecond: TUnit absolute KilogramPerQuarticMeterPerSecondUnit;

kg/m⁴/s - kilogram per quartic meter per second: SI unit of mass flow per quartic length.

KilogramPerQuarticSecond: TUnit absolute KilogramPerQuarticSecondUnit;

kg/s⁴ - kilogram per quartic second.

KilogramPerQuarticSecondPerAmpere: TUnit absolute KilogramPerQuarticSecondPerAmpereUnit;

kg/s⁴/A - kilogram per quartic second per ampere.

KilogramPerQuarticSecondPerSquareAmpere: TUnit absolute KilogramPerQuarticSecondPerSquareAmpereUnit;

kg/s⁴/A² - kilogram per quartic second per square ampere.

KilogramPerSecond: TUnit absolute KilogramPerSecondUnit;

kg/s - kilogram per second: SI unit of mass flow rate.

KilogramPerSecondPerAmpere: TUnit absolute KilogramPerSecondPerAmpereUnit;

kg/s/A - kilogram per second per ampere.

KilogramPerSquareAmpere: TUnit absolute KilogramPerSquareAmpereUnit;

kg/A² - kilogram per square ampere.

KilogramPerSquareMeter: TUnit absolute KilogramPerSquareMeterUnit;

kg/m² - kilogram per square meter: SI unit of surface mass density.

KilogramPerSquareMeterPerSquareSecond: TUnit absolute KilogramPerSquareMeterPerSquareSecondUnit;

kg/m²/s² - kilogram per square meter per square second: SI unit of pressure gradient; equivalent to Pa/m.

KilogramPerSquareSecond: TUnit absolute KilogramPerSquareSecondUnit;

kg/s² - kilogram per square second: SI unit of surface tension; equivalent to N/m.

KilogramPerSquareSecondPerKelvin: TUnit absolute KilogramPerSquareSecondPerKelvinUnit;

kg/s²/K - kilogram per square second per kelvin.

KilogramPerSquareSecondPerKelvinPerMole: TUnit absolute KilogramPerSquareSecondPerKelvinPerMoleUnit;

kg/s²/K/mol - kilogram per square second per kelvin per mole.

KilogramPerSquareSecondPerMole: TUnit absolute KilogramPerSquareSecondPerMoleUnit;

kg/s²/mol - kilogram per square second per mole.

KilogramPerSteradian: TUnit absolute KilogramPerSteradianUnit;

kg/sr - kilogram per steradian.

KilogramQuarticMeter: TUnit absolute KilogramQuarticMeterUnit;

kg.m⁴ - kilogram quartic meter.

KilogramQuarticMeterPerSquareSecond: TUnit absolute KilogramQuarticMeterPerSquareSecondUnit;

kg·m⁴/s² - kilogram quartic meter per square second: SI unit of force-volume product; equivalent to N·m³.

KilogramSquareMeter: TUnit absolute KilogramSquareMeterUnit;

kg·m² - kilogram square meter: SI unit of moment of inertia.

KilogramSquareMeterPerAmpere: TUnit absolute KilogramSquareMeterPerAmpereUnit;

kg.m²/A - kilogram square meter per ampere.

KilogramSquareMeterPerAmperePerCubicSecond: TUnit absolute KilogramSquareMeterPerAmperePerCubicSecondUnit;

kg·m²/A/s³ - kilogram square meter per ampere per cubic second: SI unit of electric potential; equivalent to V.

KilogramSquareMeterPerAmperePerSquareSecond: TUnit absolute KilogramSquareMeterPerAmperePerSquareSecondUnit;

kg·m²/A/s² - kilogram square meter per ampere per square second: SI unit of magnetic flux; equivalent to Wb.

KilogramSquareMeterPerCandela: TUnit absolute KilogramSquareMeterPerCandelaUnit;

kg.m²/cd - kilogram square meter per candela.

KilogramSquareMeterPerCandelaPerSteradian: TUnit absolute KilogramSquareMeterPerCandelaPerSteradianUnit;

kg.m²/cd/sr - kilogram square meter per candela per steradian.

KilogramSquareMeterPerCubicSecond: TUnit absolute KilogramSquareMeterPerCubicSecondUnit;

kg·m²/s³ - kilogram square meter per cubic second: SI unit of power; equivalent to W.

KilogramSquareMeterPerCubicSecondPerCandela: TUnit absolute KilogramSquareMeterPerCubicSecondPerCandelaUnit;

kg.m²/s³/cd - kilogram square meter per cubic second per candela.

KilogramSquareMeterPerCubicSecondPerCandelaPerSteradian: TUnit absolute KilogramSquareMeterPerCubicSecondPerCandelaPerSteradianUnit;

kg.m²/s³/cd/sr - kilogram square meter per cubic second per candela per steradian.

KilogramSquareMeterPerCubicSecondPerKelvin: TUnit absolute KilogramSquareMeterPerCubicSecondPerKelvinUnit;

kg·m²/s³/K - kilogram square meter per cubic second per kelvin: SI unit of thermal conductance; equivalent to W/K.

KilogramSquareMeterPerKelvin: TUnit absolute KilogramSquareMeterPerKelvinUnit;

kg.m²/K - kilogram square meter per kelvin.

KilogramSquareMeterPerKelvinPerMole: TUnit absolute KilogramSquareMeterPerKelvinPerMoleUnit;

kg.m²/K/mol - kilogram square meter per kelvin per mole.

KilogramSquareMeterPerMole: TUnit absolute KilogramSquareMeterPerMoleUnit;

kg.m²/mol - kilogram square meter per mole.

KilogramSquareMeterPerQuarticKelvin: TUnit absolute KilogramSquareMeterPerQuarticKelvinUnit;

kg.m²/K⁴ - kilogram square meter per quartic kelvin.

KilogramSquareMeterPerQuarticSecond: TUnit absolute KilogramSquareMeterPerQuarticSecondUnit;

kg.m²/s⁴ - kilogram square meter per quartic second.

KilogramSquareMeterPerQuarticSecondPerSquareAmpere: TUnit absolute KilogramSquareMeterPerQuarticSecondPerSquareAmpereUnit;

kg.m²/s⁴/A² - kilogram square meter per quartic second per square ampere.

KilogramSquareMeterPerSecond: TUnit absolute KilogramSquareMeterPerSecondUnit;

kg·m²/s - kilogram square meter per second: SI unit of angular momentum.

KilogramSquareMeterPerSquareAmpere: TUnit absolute KilogramSquareMeterPerSquareAmpereUnit;

kg.m²/A² - kilogram square meter per square ampere.

KilogramSquareMeterPerSquareAmperePerCubicSecond: TUnit absolute KilogramSquareMeterPerSquareAmperePerCubicSecondUnit;

kg·m²/A²/s³ - kilogram square meter per square ampere per cubic second: SI unit of electric resistance; equivalent to Ω.

KilogramSquareMeterPerSquareAmperePerSquareSecond: TUnit absolute KilogramSquareMeterPerSquareAmperePerSquareSecondUnit;

kg·m²/A²/s² - kilogram square meter per square ampere per square second: SI unit of inductance; equivalent to H.

KilogramSquareMeterPerSquareSecond: TUnit absolute KilogramSquareMeterPerSquareSecondUnit;

kg·m²/s² - kilogram square meter per square second: SI unit of energy; equivalent to J.

KilogramSquareMeterPerSquareSecondPerKelvin: TUnit absolute KilogramSquareMeterPerSquareSecondPerKelvinUnit;

kg·m²/s²/K - kilogram square meter per square second per kelvin: SI unit of heat capacity; equivalent to J/K.

KilogramSquareMeterPerSquareSecondPerRadian: TUnit absolute KilogramSquareMeterPerSquareSecondPerRadianUnit;

kg·m²/s²/rad - kilogram square meter per square second per radian: SI unit of torsional stiffness; equivalent to N·m/rad.

KilogramSquareMeterPerSteradian: TUnit absolute KilogramSquareMeterPerSteradianUnit;

kg.m²/sr - kilogram square meter per steradian.

KilogramSquareSecond: TUnit absolute KilogramSquareSecondUnit;

kg·s² - kilogram square second.

KilogramSquareSecondPerCubicMeter: TUnit absolute KilogramSquareSecondPerCubicMeterUnit;

kg.s²/m³ - kilogram square second per cubic meter.

KilogramSquareSecondPerMeter: TUnit absolute KilogramSquareSecondPerMeterUnit;

kg.s²/m - kilogram square second per meter.

L: TFactoredUnit absolute LitreUnit;

L - litre: unit of volume; 1 L = 1e-3 m³.

lb: TFactoredUnit absolute PoundUnit;

lb - pound: unit of mass; 1 lb = 0.45359237 kg.

lbf: TFactoredUnit absolute PoundForceUnit;

lbf - pound-force: imperial unit of force; 1 lbf = 4.4482216152605 N.

LightYear: TFactoredUnit absolute LightYearUnit;

ly - light year: unit of length used in astronomy; 1 ly = 9.460730E+15 m.

Litre: TFactoredUnit absolute LitreUnit;

L - litre: unit of volume; 1 L = 1e-3 m³.

lm: TUnit absolute LumenUnit;

lm - lumen: SI derived unit of luminous flux; 1 lm = 1 cd·sr.

Lumen: TUnit absolute LumenUnit;

lm - lumen: SI derived unit of luminous flux; 1 lm = 1 cd·sr.

LumenPerWatt: TUnit absolute LumenPerWattUnit;

lm/W - lumen per watt: SI unit of luminous efficacy.

LumenSecond: TUnit absolute LumenSecondUnit;

lm·s - lumen second: SI unit of luminous energy.

LumenSecondPerCubicMeter: TUnit absolute LumenSecondPerCubicMeterUnit;

lm·s/m³ - lumen second per cubic meter: SI unit of luminous energy density.

Lux: TUnit absolute LuxUnit;

lx - lux: SI derived unit of illuminance; 1 lx = 1 lm/m².

LuxSecond: TUnit absolute LuxSecondUnit;

lx·s - lux second: SI unit of luminous exposure.

lx: TUnit absolute LuxUnit;

lx - lux: SI derived unit of illuminance; 1 lx = 1 lm/m².

ly: TFactoredUnit absolute LightYearUnit;

ly - light year: unit of length used in astronomy; 1 ly = 9.460730E+15 m.

m: TUnit absolute MeterUnit;

m - meter: SI base unit of length.

m2: TUnit absolute SquareMeterUnit;

m² - square meter: SI unit of area.

m3: TUnit absolute CubicMeterUnit;

m³ - cubic meter: SI derived unit of volume.

m4: TUnit absolute QuarticMeterUnit;

m⁴ - quartic meter: SI derived unit of second moment of area.

m5: TUnit absolute QuinticMeterUnit;

m⁵ - quintic meter: SI derived unit of quintic length.

m6: TUnit absolute SexticMeterUnit;

m⁶ - sextic meter: SI derived unit of sextic length.

Meter: TUnit absolute MeterUnit;

m - meter: SI base unit of length.

MeterAmpere: TUnit absolute MeterAmpereUnit;

m.A - meter ampere.

MeterCubicSecond: TUnit absolute MeterCubicSecondUnit;

m.s³ - meter cubic second.

MeterCubicSecondPerKilogram: TUnit absolute MeterCubicSecondPerKilogramUnit;

m.s³/kg - meter cubic second per kilogram.

MeterCubicSecondSteradian: TUnit absolute MeterCubicSecondSteradianUnit;

m.s³.sr - meter cubic second steradian.

MeterCubicSecondSteradianPerKilogram: TUnit absolute MeterCubicSecondSteradianPerKilogramUnit;

m.s³.sr/kg - meter cubic second steradian per kilogram.

MeterKelvin: TUnit absolute MeterKelvinUnit;

m·K - meter kelvin.

MeterKelvinPerWatt: TUnit absolute MeterKelvinPerWattUnit;

K·m/W - kelvin meter per watt.

MeterPerAmpere: TUnit absolute MeterPerAmpereUnit;

m/A - meter per ampere.

MeterPerCubicSecond: TUnit absolute MeterPerCubicSecondUnit;

m/s³ - meter per cubic second: SI unit of jerk (rate of change of acceleration).

MeterPerCubicSecondPerAmpere: TUnit absolute MeterPerCubicSecondPerAmpereUnit;

m/s³/A - meter per cubic second per ampere.

MeterPerCubicSecondPerKelvin: TUnit absolute MeterPerCubicSecondPerKelvinUnit;

m/s³/K - meter per cubic second per kelvin.

MeterPerCubicSecondPerSteradian: TUnit absolute MeterPerCubicSecondPerSteradianUnit;

m/s³/sr - meter per cubic second per steradian.

MeterPerKelvin: TUnit absolute MeterPerKelvinUnit;

m/K - meter per kelvin.

MeterPerKilogram: TUnit absolute MeterPerKilogramUnit;

m/kg - meter per kilogram.

MeterPerKilogramPerSquareSecond: TUnit absolute MeterPerKilogramPerSquareSecondUnit;

m/kg/s² - meter per kilogram per square second: SI unit of gravitational coupling; equivalent to N/kg².

MeterPerQuarticSecond: TUnit absolute MeterPerQuarticSecondUnit;

m/s⁴ - meter per quartic second: SI unit of snap (rate of change of jerk).

MeterPerQuarticSecondPerSquareAmpere: TUnit absolute MeterPerQuarticSecondPerSquareAmpereUnit;

m/s⁴/A² - meter per quartic second per square ampere.

MeterPerQuinticSecond: TUnit absolute MeterPerQuinticSecondUnit;

m/s⁵ - meter per quintic second: SI unit of crackle (rate of change of snap).

MeterPerSecond: TUnit absolute MeterPerSecondUnit;

m/s - meter per second: unit of speed.

MeterPerSecondPerAmpere: TUnit absolute MeterPerSecondPerAmpereUnit;

m/s/A - meter per second per ampere.

MeterPerSecondPerSecond: TUnit absolute MeterPerSecondPerSecondUnit;

m/s/s - meter per second per second: unit of acceleration; equivalent to m/s².

MeterPerSexticSecond: TUnit absolute MeterPerSexticSecondUnit;

m/s⁶ - meter per sextic second: SI unit of pop (rate of change of crackle).

MeterPerSquareAmpere: TUnit absolute MeterPerSquareAmpereUnit;

m/A² - meter per square ampere.

MeterPerSquareKilogram: TUnit absolute MeterPerSquareKilogramUnit;

m/kg² - meter per square kilogram.

MeterPerSquareSecond: TUnit absolute MeterPerSquareSecondUnit;

m/s² - meter per square second: SI derived unit of acceleration.

MeterPerSquareSecondPerAmpere: TUnit absolute MeterPerSquareSecondPerAmpereUnit;

m/s²/A - meter per square second per ampere.

MeterPerSquareSecondPerSquareAmpere: TUnit absolute MeterPerSquareSecondPerSquareAmpereUnit;

m/s²/A² - meter per square second per square ampere.

MeterPerSteradian: TUnit absolute MeterPerSteradianUnit;

m/sr - meter per steradian.

MeterPerVolt: TUnit absolute MeterPerVoltUnit;

m/V - meter per volt.

MeterPerWatt: TUnit absolute MeterPerWattUnit;

m/W - meter per watt: SI unit of thermal resistivity.

MeterSecond: TUnit absolute MeterSecondUnit;

m·s - meter second.

MeterSecondPerKilogram: TUnit absolute MeterSecondPerKilogramUnit;

m.s/kg - meter second per kilogram.

MeterSquareSecond: TUnit absolute MeterSquareSecondUnit;

m.s² - meter square second.

MeterSteradian: TUnit absolute MeterSteradianUnit;

m·sr - meter steradian.

MeterSteradianPerKilogram: TUnit absolute MeterSteradianPerKilogramUnit;

m.sr/kg - meter steradian per kilogram.

mg: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-06);

mg - kilogram: submultiple of kilogram; 1 mg = 1e-06 kg.

mg2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

mg² - square kilogram: submultiple of square kilogram; 1 mg² = 1e-12 kg².

mi: TFactoredUnit absolute MileUnit;

mi - mile: imperial unit of length; 1 mi = 1609.344 m.

mi2: TFactoredUnit absolute SquareMileUnit;

mi² - square mile: imperial unit of area; 1 mi² = 2589988.110336 m².

mig: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-09);

mig - kilogram: submultiple of kilogram; 1 mig = 1e-09 kg.

mig2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-18);

mig² - square kilogram: submultiple of square kilogram; 1 mig² = 1e-18 kg².

Mile: TFactoredUnit absolute MileUnit;

mi - mile: imperial unit of length; 1 mi = 1609.344 m.

minute: TFactoredUnit absolute MinuteUnit;

min - minute: unit of time; 1 min = 60 s.

minute2: TFactoredUnit absolute SquareMinuteUnit;

min² - square minute: unit of square time; 1 min² = 60² s².

mol: TUnit absolute MoleUnit;

mol - mole: SI base unit of amount of substance.

Mole: TUnit absolute MoleUnit;

mol - mole: SI base unit of amount of substance.

MoleKelvin: TUnit absolute MoleKelvinUnit;

mol·K - mole kelvin.

MolePerAmpere: TUnit absolute MolePerAmpereUnit;

mol/A - mole per ampere.

MolePerCubicMeter: TUnit absolute MolePerCubicMeterUnit;

mol/m³ - mole per cubic meter: SI unit of molar concentration.

MolePerKilogram: TUnit absolute MolePerKilogramUnit;

mol/kg - mole per kilogram.

MolePerKilogramPerSquareMeter: TUnit absolute MolePerKilogramPerSquareMeterUnit;

mol/kg/m² - mole per kilogram per square meter.

MolePerSecond: TUnit absolute MolePerSecondUnit;

mol/s - mole per second: SI unit of catalytic activity; equivalent to kat.

MolePerSecondPerAmpere: TUnit absolute MolePerSecondPerAmpereUnit;

mol/s/A - mole per second per ampere.

MolePerSquareMeter: TUnit absolute MolePerSquareMeterUnit;

mol/m² - mole per square meter.

N: TUnit absolute NewtonUnit;

N - newton: SI derived unit of force; 1 N = 1 kg·m/s².

N2: TUnit absolute SquareNewtonUnit;

N² - square newton: SI unit of square force.

NauticalMile: TFactoredUnit absolute NauticalMileUnit;

nmi - nautical mile: unit of length used in navigation; 1 nmi = 1852 m.

Newton: TUnit absolute NewtonUnit;

N - newton: SI derived unit of force; 1 N = 1 kg·m/s².

NewtonCubicMeter: TUnit absolute NewtonCubicMeterUnit;

N·m³ - newton cubic meter.

NewtonMeter: TUnit absolute NewtonMeterUnit;

N·m - newton meter: SI unit of torque and energy; equivalent to J.

NewtonMeterPerRadian: TUnit absolute NewtonMeterPerRadianUnit;

N·m/rad - newton meter per radian: SI unit of torsional stiffness.

NewtonMeterSecond: TUnit absolute NewtonMeterSecondUnit;

N·m·s - newton meter second: SI unit of angular impulse.

NewtonPerAmpere: TUnit absolute NewtonPerAmpereUnit;

N/A - newton per ampere: SI unit of magnetic rigidity; equivalent to T·m.

NewtonPerCoulomb: TUnit absolute NewtonPerCoulombUnit;

N/C - newton per coulomb: SI unit of electric field strength; equivalent to V/m.

NewtonPerCubicMeter: TUnit absolute NewtonPerCubicMeterUnit;

N/m³ - newton per cubic meter: SI unit of force density.

NewtonPerMeter: TUnit absolute NewtonPerMeterUnit;

N/m - newton per meter: SI unit of surface tension and stiffness.

NewtonPerSquareAmpere: TUnit absolute NewtonPerSquareAmpereUnit;

N/A² - newton per square ampere: SI unit of magnetic permeability; equivalent to H/m.

NewtonPerSquareCoulomb: TUnit absolute NewtonPerSquareCoulombUnit;

N/C² - newton per square coulomb.

NewtonPerSquareKilogram: TUnit absolute NewtonPerSquareKilogramUnit;

N/kg² - newton per square kilogram: SI unit of gravitational coupling.

NewtonPerSquareMeter: TUnit absolute NewtonPerSquareMeterUnit;

N/m² - newton per square meter: SI unit of pressure; equivalent to Pa.

NewtonRadian: TUnit absolute NewtonRadianUnit;

N·rad - newton radian: SI unit of force per radian.

NewtonSecond: TUnit absolute NewtonSecondUnit;

N·s - newton second: SI unit of impulse; equivalent to kg·m/s.

NewtonSquareMeter: TUnit absolute NewtonSquareMeterUnit;

N·m² - newton square meter.

NewtonSquareMeterPerCoulomb: TUnit absolute NewtonSquareMeterPerCoulombUnit;

N·m²/C - newton square meter per coulomb: SI unit of electric flux; equivalent to V·m.

NewtonSquareMeterPerSquareCoulomb: TUnit absolute NewtonSquareMeterPerSquareCoulombUnit;

N·m²/C² - newton square meter per square coulomb: SI unit of Coulomb constant.

NewtonSquareMeterPerSquareKilogram: TUnit absolute NewtonSquareMeterPerSquareKilogramUnit;

N·m²/kg² - newton square meter per square kilogram: SI unit of gravitational constant.

ng: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-12);

ng - kilogram: submultiple of kilogram; 1 ng = 1e-12 kg.

ng2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-24);

ng² - square kilogram: submultiple of square kilogram; 1 ng² = 1e-24 kg².

nmi: TFactoredUnit absolute NauticalMileUnit;

nmi - nautical mile: unit of length used in navigation; 1 nmi = 1852 m.

ohm: TUnit absolute OhmUnit;

Ω - ohm: SI derived unit of electric resistance; 1 Ω = 1 V/A.

OhmMeter: TUnit absolute OhmMeterUnit;

Ω·m - ohm meter: SI unit of electric resistivity.

Ounce: TFactoredUnit absolute OunceUnit;

oz - ounce: unit of mass; 1 oz = 0.028349523125 kg.

oz: TFactoredUnit absolute OunceUnit;

oz - ounce: unit of mass; 1 oz = 0.028349523125 kg.

Pa: TUnit absolute PascalUnit;

Pa - pascal: SI derived unit of pressure; 1 Pa = 1 N/m².

parsec: TFactoredUnit absolute ParsecUnit;

pc - parsec: unit of length used in astronomy; 1 pc = 3.085678E+16 m.

Pascal: TUnit absolute PascalUnit;

Pa - pascal: SI derived unit of pressure; 1 Pa = 1 N/m².

PascalPerMeter: TUnit absolute PascalPerMeterUnit;

Pa/m - pascal per meter: SI unit of pressure gradient.

PascalSecond: TUnit absolute PascalSecondUnit;

Pa·s - pascal second: SI unit of dynamic viscosity; equivalent to Pl.

pg: TQuantity = (FDim: (FKilogram: 60; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-15);

pg - kilogram: submultiple of kilogram; 1 pg = 1e-15 kg.

pg2: TQuantity = (FDim: (FKilogram: 120; FMeter: 0; FSecond: 0; FAmpere: 0; FKelvin: 0; FMole: 0; FCandela: 0; FSteradian: 0); FValue: 1e-30);

pg² - square kilogram: submultiple of square kilogram; 1 pg² = 1e-30 kg².

Pl: TUnit absolute PoiseuilleUnit;

Pl - poiseuille: SI unit of dynamic viscosity; 1 Pl = 1 Pa·s.

Poiseuille: TUnit absolute PoiseuilleUnit;

Pl - poiseuille: SI unit of dynamic viscosity; 1 Pl = 1 Pa·s.

Pound: TFactoredUnit absolute PoundUnit;

lb - pound: unit of mass; 1 lb = 0.45359237 kg.

PoundForce: TFactoredUnit absolute PoundForceUnit;

lbf - pound-force: imperial unit of force; 1 lbf = 4.4482216152605 N.

PoundPerSquareInch: TFactoredUnit absolute PoundPerSquareInchUnit;

psi - pound per square inch: imperial unit of pressure; 1 psi = 6894.757 Pa.

psi: TFactoredUnit absolute PoundPerSquareInchUnit;

psi - pound per square inch: imperial unit of pressure; 1 psi = 6894.757 Pa.

QuarticAmpere: TUnit absolute QuarticAmpereUnit;

A⁴ - quartic ampere.

QuarticCandela: TUnit absolute QuarticCandelaUnit;

cd⁴ - quartic candela.

QuarticKelvin: TUnit absolute QuarticKelvinUnit;

K⁴ - quartic kelvin: unit of quartic temperature.

QuarticKelvinPerKilogram: TUnit absolute QuarticKelvinPerKilogramUnit;

K⁴/kg - quartic kelvin per kilogram.

QuarticKelvinPerKilogramPerSquareMeter: TUnit absolute QuarticKelvinPerKilogramPerSquareMeterUnit;

K⁴/kg/m² - quartic kelvin per kilogram per square meter.

QuarticKelvinPerSquareMeter: TUnit absolute QuarticKelvinPerSquareMeterUnit;

K⁴/m² - quartic kelvin per square meter.

QuarticKilogram: TUnit absolute QuarticKilogramUnit;

kg⁴ - quartic kilogram.

QuarticMeter: TUnit absolute QuarticMeterUnit;

m⁴ - quartic meter: SI derived unit of second moment of area.

QuarticMeterPerKilogram: TUnit absolute QuarticMeterPerKilogramUnit;

m⁴/kg - quartic meter per kilogram.

QuarticMeterPerQuarticSecond: TUnit absolute QuarticMeterPerQuarticSecondUnit;

m⁴/s⁴ - quartic meter per quartic second.

QuarticMeterPerSexticSecond: TUnit absolute QuarticMeterPerSexticSecondUnit;

m⁴/s⁶ - quartic meter per sextic second.

QuarticMeterPerSexticSecondPerSquareAmpere: TUnit absolute QuarticMeterPerSexticSecondPerSquareAmpereUnit;

m⁴/s⁶/A² - quartic meter per sextic second per square ampere.

QuarticMeterPerSquareAmpere: TUnit absolute QuarticMeterPerSquareAmpereUnit;

m⁴/A² - quartic meter per square ampere.

QuarticMeterPerSquareSecond: TUnit absolute QuarticMeterPerSquareSecondUnit;

m⁴/s² - quartic meter per square second.

QuarticMeterSecond: TUnit absolute QuarticMeterSecondUnit;

m⁴·s - quartic meter second.

QuarticMeterSecondPerKilogram: TUnit absolute QuarticMeterSecondPerKilogramUnit;

m⁴.s/kg - quartic meter second per kilogram.

QuarticMole: TUnit absolute QuarticMoleUnit;

mol⁴ - quartic mole.

QuarticRootAmpere: TUnit absolute QuarticRootAmpereUnit;

∜A - quartic root ampere.

QuarticRootCandela: TUnit absolute QuarticRootCandelaUnit;

∜cd - quartic root candela.

QuarticRootCubicAmpere: TUnit absolute QuarticRootCubicAmpereUnit;

∜A³ - quartic root cubic ampere.

QuarticRootCubicCandela: TUnit absolute QuarticRootCubicCandelaUnit;

∜cd³ - quartic root cubic candela.

QuarticRootCubicKelvin: TUnit absolute QuarticRootCubicKelvinUnit;

∜K³ - quartic root cubic kelvin.

QuarticRootCubicKilogram: TUnit absolute QuarticRootCubicKilogramUnit;

∜kg³ - quartic root cubic kilogram.

QuarticRootCubicMeter: TUnit absolute QuarticRootCubicMeterUnit;

∜m³ - quartic root cubic meter.

QuarticRootCubicMole: TUnit absolute QuarticRootCubicMoleUnit;

∜mol³ - quartic root cubic mole.

QuarticRootCubicSecond: TUnit absolute QuarticRootCubicSecondUnit;

∜s³ - quartic root cubic second.

QuarticRootCubicSteradian: TUnit absolute QuarticRootCubicSteradianUnit;

∜sr³ - quartic root cubic steradian.

QuarticRootKelvin: TUnit absolute QuarticRootKelvinUnit;

∜K - quartic root kelvin.

QuarticRootKilogram: TUnit absolute QuarticRootKilogramUnit;

∜kg - quartic root kilogram.

QuarticRootMeter: TUnit absolute QuarticRootMeterUnit;

∜m - quartic root meter.

QuarticRootMole: TUnit absolute QuarticRootMoleUnit;

∜mol - quartic root mole.

QuarticRootSecond: TUnit absolute QuarticRootSecondUnit;

∜s - quartic root second.

QuarticRootSteradian: TUnit absolute QuarticRootSteradianUnit;

∜sr - quartic root steradian.

QuarticSecond: TUnit absolute QuarticSecondUnit;

s⁴ - quartic second: SI unit of quartic time.

QuarticSecondAmpere: TUnit absolute QuarticSecondAmpereUnit;

s⁴.A - quartic second ampere.

QuarticSecondAmperePerCubicMeter: TUnit absolute QuarticSecondAmperePerCubicMeterUnit;

s⁴.A/m³ - quartic second ampere per cubic meter.

QuarticSecondAmperePerKilogram: TUnit absolute QuarticSecondAmperePerKilogramUnit;

s⁴.A/kg - quartic second ampere per kilogram.

QuarticSecondAmperePerKilogramPerCubicMeter: TUnit absolute QuarticSecondAmperePerKilogramPerCubicMeterUnit;

s⁴.A/kg/m³ - quartic second ampere per kilogram per cubic meter.

QuarticSecondPerCubicMeter: TUnit absolute QuarticSecondPerCubicMeterUnit;

s⁴/m³ - quartic second per cubic meter.

QuarticSecondPerKilogram: TUnit absolute QuarticSecondPerKilogramUnit;

s⁴/kg - quartic second per kilogram.

QuarticSecondPerKilogramPerCubicMeter: TUnit absolute QuarticSecondPerKilogramPerCubicMeterUnit;

s⁴/kg/m³ - quartic second per kilogram per cubic meter.

QuarticSecondPerKilogramPerMeter: TUnit absolute QuarticSecondPerKilogramPerMeterUnit;

s⁴/kg/m - quartic second per kilogram per meter.

QuarticSecondPerKilogramPerSquareMeter: TUnit absolute QuarticSecondPerKilogramPerSquareMeterUnit;

s⁴/kg/m² - quartic second per kilogram per square meter.

QuarticSecondPerMeter: TUnit absolute QuarticSecondPerMeterUnit;

s⁴/m - quartic second per meter.

QuarticSecondPerQuarticMeter: TUnit absolute QuarticSecondPerQuarticMeterUnit;

s⁴/m⁴ - quartic second per quartic meter.

QuarticSecondPerSquareKilogram: TUnit absolute QuarticSecondPerSquareKilogramUnit;

s⁴/kg² - quartic second per square kilogram.

QuarticSecondPerSquareKilogramPerQuarticMeter: TUnit absolute QuarticSecondPerSquareKilogramPerQuarticMeterUnit;

s⁴/kg²/m⁴ - quartic second per square kilogram per quartic meter.

QuarticSecondPerSquareKilogramPerSquareMeter: TUnit absolute QuarticSecondPerSquareKilogramPerSquareMeterUnit;

s⁴/kg²/m² - quartic second per square kilogram per square meter.

QuarticSecondPerSquareMeter: TUnit absolute QuarticSecondPerSquareMeterUnit;

s⁴/m² - quartic second per square meter.

QuarticSecondSquareAmpere: TUnit absolute QuarticSecondSquareAmpereUnit;

s⁴.A² - quartic second square ampere.

QuarticSecondSquareAmperePerCubicMeter: TUnit absolute QuarticSecondSquareAmperePerCubicMeterUnit;

s⁴.A²/m³ - quartic second square ampere per cubic meter.

QuarticSecondSquareAmperePerKilogram: TUnit absolute QuarticSecondSquareAmperePerKilogramUnit;

s⁴.A²/kg - quartic second square ampere per kilogram.

QuarticSecondSquareAmperePerKilogramPerMeter: TUnit absolute QuarticSecondSquareAmperePerKilogramPerMeterUnit;

s⁴.A²/kg/m - quartic second square ampere per kilogram per meter.

QuarticSecondSquareAmperePerMeter: TUnit absolute QuarticSecondSquareAmperePerMeterUnit;

s⁴.A²/m - quartic second square ampere per meter.

QuarticSecondSquareAmperePerSquareMeter: TUnit absolute QuarticSecondSquareAmperePerSquareMeterUnit;

s⁴.A²/m² - quartic second square ampere per square meter.

QuarticSteradian: TUnit absolute QuarticSteradianUnit;

sr⁴ - quartic steradian.

QuinticAmpere: TUnit absolute QuinticAmpereUnit;

A⁵ - quintic ampere.

QuinticCandela: TUnit absolute QuinticCandelaUnit;

cd⁵ - quintic candela.

QuinticKelvin: TUnit absolute QuinticKelvinUnit;

K⁵ - quintic kelvin.

QuinticKilogram: TUnit absolute QuinticKilogramUnit;

kg⁵ - quintic kilogram.

QuinticMeter: TUnit absolute QuinticMeterUnit;

m⁵ - quintic meter: SI derived unit of quintic length.

QuinticMole: TUnit absolute QuinticMoleUnit;

mol⁵ - quintic mole.

QuinticRootAmpere: TUnit absolute QuinticRootAmpereUnit;

⁵√A - quintic root ampere.

QuinticRootCandela: TUnit absolute QuinticRootCandelaUnit;

⁵√cd - quintic root candela.

QuinticRootKelvin: TUnit absolute QuinticRootKelvinUnit;

⁵√K - quintic root kelvin.

QuinticRootKilogram: TUnit absolute QuinticRootKilogramUnit;

⁵√kg - quintic root kilogram.

QuinticRootMeter: TUnit absolute QuinticRootMeterUnit;

⁵√m - quintic root meter.

QuinticRootMole: TUnit absolute QuinticRootMoleUnit;

⁵√mol - quintic root mole.

QuinticRootSecond: TUnit absolute QuinticRootSecondUnit;

⁵√s - quintic root second.

QuinticRootSteradian: TUnit absolute QuinticRootSteradianUnit;

⁵√sr - quintic root steradian.

QuinticSecond: TUnit absolute QuinticSecondUnit;

s⁵ - quintic second: SI unit of quintic time.

QuinticSecondPerMeter: TUnit absolute QuinticSecondPerMeterUnit;

s⁵/m - quintic second per meter.

QuinticSteradian: TUnit absolute QuinticSteradianUnit;

sr⁵ - quintic steradian.

rad: TUnit absolute RadianUnit;

rad - radian: SI derived unit of plane angle.

Radian: TUnit absolute RadianUnit;

rad - radian: SI derived unit of plane angle.

RadianPerMeter: TUnit absolute RadianPerMeterUnit;

rad/m - radian per meter: SI unit of angular wavenumber.

RadianPerSecond: TUnit absolute RadianPerSecondUnit;

rad/s - radian per second: unit of angular frequency.

RadianPerSquareSecond: TUnit absolute RadianPerSquareSecondUnit;

rad/s² - radian per square second: unit of angular acceleration.

ReciprocalAmpere: TUnit absolute ReciprocalAmpereUnit;

1/A - reciprocal ampere.

ReciprocalCandela: TUnit absolute ReciprocalCandelaUnit;

1/cd - reciprocal candela.

ReciprocalCandelaSteradian: TUnit absolute ReciprocalCandelaSteradianUnit;

1/cd/sr - reciprocal candela steradian.

ReciprocalCubicAmpere: TUnit absolute ReciprocalCubicAmpereUnit;

1/A³ - reciprocal cubic ampere.

ReciprocalCubicCandela: TUnit absolute ReciprocalCubicCandelaUnit;

1/cd³ - reciprocal cubic candela.

ReciprocalCubicKelvin: TUnit absolute ReciprocalCubicKelvinUnit;

1/K³ - reciprocal cubic kelvin.

ReciprocalCubicKilogram: TUnit absolute ReciprocalCubicKilogramUnit;

1/kg³ - reciprocal cubic kilogram.

ReciprocalCubicMeter: TUnit absolute ReciprocalCubicMeterUnit;

1/m³ - reciprocal cubic meter: SI unit of number density.

ReciprocalCubicMeterSecond: TUnit absolute ReciprocalCubicMeterSecondUnit;

1/m³/s - reciprocal cubic meter second.

ReciprocalCubicMeterSteradian: TUnit absolute ReciprocalCubicMeterSteradianUnit;

1/m³/sr - reciprocal cubic meter steradian.

ReciprocalCubicMole: TUnit absolute ReciprocalCubicMoleUnit;

1/mol³ - reciprocal cubic mole.

ReciprocalCubicRootAmpere: TUnit absolute ReciprocalCubicRootAmpereUnit;

1/∛A - reciprocal cubic root ampere.

ReciprocalCubicRootCandela: TUnit absolute ReciprocalCubicRootCandelaUnit;

1/∛cd - reciprocal cubic root candela.

ReciprocalCubicRootKelvin: TUnit absolute ReciprocalCubicRootKelvinUnit;

1/∛K - reciprocal cubic root kelvin.

ReciprocalCubicRootKilogram: TUnit absolute ReciprocalCubicRootKilogramUnit;

1/∛kg - reciprocal cubic root kilogram.

ReciprocalCubicRootMeter: TUnit absolute ReciprocalCubicRootMeterUnit;

1/∛m - reciprocal cubic root meter.

ReciprocalCubicRootMole: TUnit absolute ReciprocalCubicRootMoleUnit;

1/∛mol - reciprocal cubic root mole.

ReciprocalCubicRootSecond: TUnit absolute ReciprocalCubicRootSecondUnit;

1/∛s - reciprocal cubic root second.

ReciprocalCubicRootSteradian: TUnit absolute ReciprocalCubicRootSteradianUnit;

1/∛sr - reciprocal cubic root steradian.

ReciprocalCubicSecond: TUnit absolute ReciprocalCubicSecondUnit;

1/s³ - reciprocal cubic second.

ReciprocalCubicSecondAmpere: TUnit absolute ReciprocalCubicSecondAmpereUnit;

1/s³/A - reciprocal cubic second ampere.

ReciprocalCubicSecondCandela: TUnit absolute ReciprocalCubicSecondCandelaUnit;

1/s³/cd - reciprocal cubic second candela.

ReciprocalCubicSecondCandelaSteradian: TUnit absolute ReciprocalCubicSecondCandelaSteradianUnit;

1/s³/cd/sr - reciprocal cubic second candela steradian.

ReciprocalCubicSecondKelvin: TUnit absolute ReciprocalCubicSecondKelvinUnit;

1/s³/K - reciprocal cubic second kelvin.

ReciprocalCubicSecondQuarticKelvin: TUnit absolute ReciprocalCubicSecondQuarticKelvinUnit;

1/s³/K⁴ - reciprocal cubic second quartic kelvin.

ReciprocalCubicSecondSquareAmpere: TUnit absolute ReciprocalCubicSecondSquareAmpereUnit;

1/s³/A² - reciprocal cubic second square ampere.

ReciprocalCubicSecondSteradian: TUnit absolute ReciprocalCubicSecondSteradianUnit;

1/s³/sr - reciprocal cubic second steradian.

ReciprocalCubicSteradian: TUnit absolute ReciprocalCubicSteradianUnit;

1/sr³ - reciprocal cubic steradian.

ReciprocalHenry: TUnit absolute ReciprocalHenryUnit;

1/H - reciprocal henry: SI unit of magnetic reluctance.

ReciprocalKelvin: TUnit absolute ReciprocalKelvinUnit;

1/K - reciprocal kelvin: SI unit of thermal expansion coefficient.

ReciprocalKelvinMole: TUnit absolute ReciprocalKelvinMoleUnit;

1/K/mol - reciprocal kelvin mole.

ReciprocalKilogram: TUnit absolute ReciprocalKilogramUnit;

1/kg - reciprocal kilogram.

ReciprocalKilogramCubicMeter: TUnit absolute ReciprocalKilogramCubicMeterUnit;

1/kg/m³ - reciprocal kilogram cubic meter.

ReciprocalKilogramKelvin: TUnit absolute ReciprocalKilogramKelvinUnit;

1/kg/K - reciprocal kilogram kelvin.

ReciprocalKilogramMeter: TUnit absolute ReciprocalKilogramMeterUnit;

1/kg/m - reciprocal kilogram meter.

ReciprocalKilogramQuarticMeter: TUnit absolute ReciprocalKilogramQuarticMeterUnit;

1/kg/m⁴ - reciprocal kilogram quartic meter.

ReciprocalKilogramSquareMeter: TUnit absolute ReciprocalKilogramSquareMeterUnit;

1/kg/m² - reciprocal kilogram square meter.

ReciprocalKilogramSquareSecond: TUnit absolute ReciprocalKilogramSquareSecondUnit;

1/kg/s² - reciprocal kilogram square second.

ReciprocalMeter: TUnit absolute ReciprocalMeterUnit;

1/m - reciprocal meter: SI unit of wavenumber.

ReciprocalMeterAmpere: TUnit absolute ReciprocalMeterAmpereUnit;

1/m/A - reciprocal meter ampere.

ReciprocalMeterCubicSecond: TUnit absolute ReciprocalMeterCubicSecondUnit;

1/m/s³ - reciprocal meter cubic second.

ReciprocalMeterCubicSecondSteradian: TUnit absolute ReciprocalMeterCubicSecondSteradianUnit;

1/m/s³/sr - reciprocal meter cubic second steradian.

ReciprocalMeterKelvin: TUnit absolute ReciprocalMeterKelvinUnit;

1/m/K - reciprocal meter kelvin.

ReciprocalMeterSecond: TUnit absolute ReciprocalMeterSecondUnit;

1/m/s - reciprocal meter second.

ReciprocalMeterSecondAmpere: TUnit absolute ReciprocalMeterSecondAmpereUnit;

1/m/s/A - reciprocal meter second ampere.

ReciprocalMeterSquareSecond: TUnit absolute ReciprocalMeterSquareSecondUnit;

1/m/s² - reciprocal meter square second.

ReciprocalMeterSteradian: TUnit absolute ReciprocalMeterSteradianUnit;

1/m/sr - reciprocal meter steradian.

ReciprocalMole: TUnit absolute ReciprocalMoleUnit;

1/mol - reciprocal mole: SI unit of reciprocal amount of substance.

ReciprocalNewton: TUnit absolute ReciprocalNewtonUnit;

1/N - reciprocal newton.

ReciprocalPascal: TUnit absolute ReciprocalPascalUnit;

1/Pa - reciprocal pascal: SI unit of compressibility.

ReciprocalQuarticAmpere: TUnit absolute ReciprocalQuarticAmpereUnit;

1/A⁴ - reciprocal quartic ampere.

ReciprocalQuarticCandela: TUnit absolute ReciprocalQuarticCandelaUnit;

1/cd⁴ - reciprocal quartic candela.

ReciprocalQuarticKelvin: TUnit absolute ReciprocalQuarticKelvinUnit;

1/K⁴ - reciprocal quartic kelvin.

ReciprocalQuarticKilogram: TUnit absolute ReciprocalQuarticKilogramUnit;

1/kg⁴ - reciprocal quartic kilogram.

ReciprocalQuarticMeter: TUnit absolute ReciprocalQuarticMeterUnit;

1/m⁴ - reciprocal quartic meter: SI unit of reciprocal quartic length.

ReciprocalQuarticMeterSecond: TUnit absolute ReciprocalQuarticMeterSecondUnit;

1/m⁴/s - reciprocal quartic meter second.

ReciprocalQuarticMole: TUnit absolute ReciprocalQuarticMoleUnit;

1/mol⁴ - reciprocal quartic mole.

ReciprocalQuarticRootAmpere: TUnit absolute ReciprocalQuarticRootAmpereUnit;

1/∜A - reciprocal quartic root ampere.

ReciprocalQuarticRootCandela: TUnit absolute ReciprocalQuarticRootCandelaUnit;

1/∜cd - reciprocal quartic root candela.

ReciprocalQuarticRootCubicAmpere: TUnit absolute ReciprocalQuarticRootCubicAmpereUnit;

1/∜A³ - reciprocal quartic root cubic ampere.

ReciprocalQuarticRootCubicCandela: TUnit absolute ReciprocalQuarticRootCubicCandelaUnit;

1/∜cd³ - reciprocal quartic root cubic candela.

ReciprocalQuarticRootCubicKelvin: TUnit absolute ReciprocalQuarticRootCubicKelvinUnit;

1/∜K³ - reciprocal quartic root cubic kelvin.

ReciprocalQuarticRootCubicKilogram: TUnit absolute ReciprocalQuarticRootCubicKilogramUnit;

1/∜kg³ - reciprocal quartic root cubic kilogram.

ReciprocalQuarticRootCubicMeter: TUnit absolute ReciprocalQuarticRootCubicMeterUnit;

1/∜m³ - reciprocal quartic root cubic meter.

ReciprocalQuarticRootCubicMole: TUnit absolute ReciprocalQuarticRootCubicMoleUnit;

1/∜mol³ - reciprocal quartic root cubic mole.

ReciprocalQuarticRootCubicSecond: TUnit absolute ReciprocalQuarticRootCubicSecondUnit;

1/∜s³ - reciprocal quartic root cubic second.

ReciprocalQuarticRootCubicSteradian: TUnit absolute ReciprocalQuarticRootCubicSteradianUnit;

1/∜sr³ - reciprocal quartic root cubic steradian.

ReciprocalQuarticRootKelvin: TUnit absolute ReciprocalQuarticRootKelvinUnit;

1/∜K - reciprocal quartic root kelvin.

ReciprocalQuarticRootKilogram: TUnit absolute ReciprocalQuarticRootKilogramUnit;

1/∜kg - reciprocal quartic root kilogram.

ReciprocalQuarticRootMeter: TUnit absolute ReciprocalQuarticRootMeterUnit;

1/∜m - reciprocal quartic root meter.

ReciprocalQuarticRootMole: TUnit absolute ReciprocalQuarticRootMoleUnit;

1/∜mol - reciprocal quartic root mole.

ReciprocalQuarticRootSecond: TUnit absolute ReciprocalQuarticRootSecondUnit;

1/∜s - reciprocal quartic root second.

ReciprocalQuarticRootSteradian: TUnit absolute ReciprocalQuarticRootSteradianUnit;

1/∜sr - reciprocal quartic root steradian.

ReciprocalQuarticSecond: TUnit absolute ReciprocalQuarticSecondUnit;

1/s⁴ - reciprocal quartic second.

ReciprocalQuarticSecondAmpere: TUnit absolute ReciprocalQuarticSecondAmpereUnit;

1/s⁴/A - reciprocal quartic second ampere.

ReciprocalQuarticSecondSquareAmpere: TUnit absolute ReciprocalQuarticSecondSquareAmpereUnit;

1/s⁴/A² - reciprocal quartic second square ampere.

ReciprocalQuarticSteradian: TUnit absolute ReciprocalQuarticSteradianUnit;

1/sr⁴ - reciprocal quartic steradian.

ReciprocalQuinticAmpere: TUnit absolute ReciprocalQuinticAmpereUnit;

1/A⁵ - reciprocal quintic ampere.

ReciprocalQuinticCandela: TUnit absolute ReciprocalQuinticCandelaUnit;

1/cd⁵ - reciprocal quintic candela.

ReciprocalQuinticKelvin: TUnit absolute ReciprocalQuinticKelvinUnit;

1/K⁵ - reciprocal quintic kelvin.

ReciprocalQuinticKilogram: TUnit absolute ReciprocalQuinticKilogramUnit;

1/kg⁵ - reciprocal quintic kilogram.

ReciprocalQuinticMeter: TUnit absolute ReciprocalQuinticMeterUnit;

1/m⁵ - reciprocal quintic meter.

ReciprocalQuinticMole: TUnit absolute ReciprocalQuinticMoleUnit;

1/mol⁵ - reciprocal quintic mole.

ReciprocalQuinticRootAmpere: TUnit absolute ReciprocalQuinticRootAmpereUnit;

1/⁵√A - reciprocal quintic root ampere.

ReciprocalQuinticRootCandela: TUnit absolute ReciprocalQuinticRootCandelaUnit;

1/⁵√cd - reciprocal quintic root candela.

ReciprocalQuinticRootKelvin: TUnit absolute ReciprocalQuinticRootKelvinUnit;

1/⁵√K - reciprocal quintic root kelvin.

ReciprocalQuinticRootKilogram: TUnit absolute ReciprocalQuinticRootKilogramUnit;

1/⁵√kg - reciprocal quintic root kilogram.

ReciprocalQuinticRootMeter: TUnit absolute ReciprocalQuinticRootMeterUnit;

1/⁵√m - reciprocal quintic root meter.

ReciprocalQuinticRootMole: TUnit absolute ReciprocalQuinticRootMoleUnit;

1/⁵√mol - reciprocal quintic root mole.

ReciprocalQuinticRootSecond: TUnit absolute ReciprocalQuinticRootSecondUnit;

1/⁵√s - reciprocal quintic root second.

ReciprocalQuinticRootSteradian: TUnit absolute ReciprocalQuinticRootSteradianUnit;

1/⁵√sr - reciprocal quintic root steradian.

ReciprocalQuinticSecond: TUnit absolute ReciprocalQuinticSecondUnit;

1/s⁵ - reciprocal quintic second.

ReciprocalQuinticSteradian: TUnit absolute ReciprocalQuinticSteradianUnit;

1/sr⁵ - reciprocal quintic steradian.

ReciprocalRadian: TUnit absolute ReciprocalRadianUnit;

1/rad - reciprocal radian.

ReciprocalSecond: TUnit absolute ReciprocalSecondUnit;

1/s - reciprocal second: unit of frequency; equivalent to Hz.

ReciprocalSecondAmpere: TUnit absolute ReciprocalSecondAmpereUnit;

1/s/A - reciprocal second ampere.

ReciprocalSecondCandela: TUnit absolute ReciprocalSecondCandelaUnit;

1/s/cd - reciprocal second candela.

ReciprocalSecondCandelaSteradian: TUnit absolute ReciprocalSecondCandelaSteradianUnit;

1/s/cd/sr - reciprocal second candela steradian.

ReciprocalSecondSteradian: TUnit absolute ReciprocalSecondSteradianUnit;

1/s/sr - reciprocal second steradian.

ReciprocalSexticAmpere: TUnit absolute ReciprocalSexticAmpereUnit;

1/A⁶ - reciprocal sextic ampere.

ReciprocalSexticCandela: TUnit absolute ReciprocalSexticCandelaUnit;

1/cd⁶ - reciprocal sextic candela.

ReciprocalSexticKelvin: TUnit absolute ReciprocalSexticKelvinUnit;

1/K⁶ - reciprocal sextic kelvin.

ReciprocalSexticKilogram: TUnit absolute ReciprocalSexticKilogramUnit;

1/kg⁶ - reciprocal sextic kilogram.

ReciprocalSexticMeter: TUnit absolute ReciprocalSexticMeterUnit;

1/m⁶ - reciprocal sextic meter.

ReciprocalSexticMole: TUnit absolute ReciprocalSexticMoleUnit;

1/mol⁶ - reciprocal sextic mole.

ReciprocalSexticRootAmpere: TUnit absolute ReciprocalSexticRootAmpereUnit;

1/⁶√A - reciprocal sextic root ampere.

ReciprocalSexticRootCandela: TUnit absolute ReciprocalSexticRootCandelaUnit;

1/⁶√cd - reciprocal sextic root candela.

ReciprocalSexticRootKelvin: TUnit absolute ReciprocalSexticRootKelvinUnit;

1/⁶√K - reciprocal sextic root kelvin.

ReciprocalSexticRootKilogram: TUnit absolute ReciprocalSexticRootKilogramUnit;

1/⁶√kg - reciprocal sextic root kilogram.

ReciprocalSexticRootMeter: TUnit absolute ReciprocalSexticRootMeterUnit;

1/⁶√m - reciprocal sextic root meter.

ReciprocalSexticRootMole: TUnit absolute ReciprocalSexticRootMoleUnit;

1/⁶√mol - reciprocal sextic root mole.

ReciprocalSexticRootSecond: TUnit absolute ReciprocalSexticRootSecondUnit;

1/⁶√s - reciprocal sextic root second.

ReciprocalSexticRootSteradian: TUnit absolute ReciprocalSexticRootSteradianUnit;

1/⁶√sr - reciprocal sextic root steradian.

ReciprocalSexticSecond: TUnit absolute ReciprocalSexticSecondUnit;

1/s⁶ - reciprocal sextic second.

ReciprocalSexticSecondSquareAmpere: TUnit absolute ReciprocalSexticSecondSquareAmpereUnit;

1/s⁶/A² - reciprocal sextic second square ampere.

ReciprocalSexticSteradian: TUnit absolute ReciprocalSexticSteradianUnit;

1/sr⁶ - reciprocal sextic steradian.

ReciprocalSquareAmpere: TUnit absolute ReciprocalSquareAmpereUnit;

1/A² - reciprocal square ampere.

ReciprocalSquareCandela: TUnit absolute ReciprocalSquareCandelaUnit;

1/cd² - reciprocal square candela.

ReciprocalSquareKelvin: TUnit absolute ReciprocalSquareKelvinUnit;

1/K² - reciprocal square kelvin.

ReciprocalSquareKilogram: TUnit absolute ReciprocalSquareKilogramUnit;

1/kg² - reciprocal square kilogram.

ReciprocalSquareKilogramQuarticMeter: TUnit absolute ReciprocalSquareKilogramQuarticMeterUnit;

1/kg²/m⁴ - reciprocal square kilogram quartic meter.

ReciprocalSquareKilogramSquareMeter: TUnit absolute ReciprocalSquareKilogramSquareMeterUnit;

1/kg²/m² - reciprocal square kilogram square meter.

ReciprocalSquareMeter: TUnit absolute ReciprocalSquareMeterUnit;

1/m² - reciprocal square meter: SI unit of reciprocal area.

ReciprocalSquareMeterAmpere: TUnit absolute ReciprocalSquareMeterAmpereUnit;

1/m²/A - reciprocal square meter ampere.

ReciprocalSquareMeterKelvin: TUnit absolute ReciprocalSquareMeterKelvinUnit;

1/m²/K - reciprocal square meter kelvin.

ReciprocalSquareMeterQuarticKelvin: TUnit absolute ReciprocalSquareMeterQuarticKelvinUnit;

1/m²/K⁴ - reciprocal square meter quartic kelvin.

ReciprocalSquareMeterSquareSecond: TUnit absolute ReciprocalSquareMeterSquareSecondUnit;

1/m²/s² - reciprocal square meter square second.

ReciprocalSquareMeterSteradian: TUnit absolute ReciprocalSquareMeterSteradianUnit;

1/m²/sr - reciprocal square meter steradian.

ReciprocalSquareMole: TUnit absolute ReciprocalSquareMoleUnit;

1/mol² - reciprocal square mole.

ReciprocalSquareRootAmpere: TUnit absolute ReciprocalSquareRootAmpereUnit;

1/√A - reciprocal square root ampere.

ReciprocalSquareRootCandela: TUnit absolute ReciprocalSquareRootCandelaUnit;

1/√cd - reciprocal square root candela.

ReciprocalSquareRootCubicAmpere: TUnit absolute ReciprocalSquareRootCubicAmpereUnit;

1/√A³ - reciprocal square root cubic ampere.

ReciprocalSquareRootCubicCandela: TUnit absolute ReciprocalSquareRootCubicCandelaUnit;

1/√cd³ - reciprocal square root cubic candela.

ReciprocalSquareRootCubicKelvin: TUnit absolute ReciprocalSquareRootCubicKelvinUnit;

1/√K³ - reciprocal square root cubic kelvin.

ReciprocalSquareRootCubicKilogram: TUnit absolute ReciprocalSquareRootCubicKilogramUnit;

1/√kg³ - reciprocal square root cubic kilogram.

ReciprocalSquareRootCubicMeter: TUnit absolute ReciprocalSquareRootCubicMeterUnit;

1/√m³ - reciprocal square root cubic meter: SI unit of reciprocal square root of volume.

ReciprocalSquareRootCubicMole: TUnit absolute ReciprocalSquareRootCubicMoleUnit;

1/√mol³ - reciprocal square root cubic mole.

ReciprocalSquareRootCubicSecond: TUnit absolute ReciprocalSquareRootCubicSecondUnit;

1/√s³ - reciprocal square root cubic second.

ReciprocalSquareRootCubicSteradian: TUnit absolute ReciprocalSquareRootCubicSteradianUnit;

1/√sr³ - reciprocal square root cubic steradian.

ReciprocalSquareRootKelvin: TUnit absolute ReciprocalSquareRootKelvinUnit;

1/√K - reciprocal square root kelvin.

ReciprocalSquareRootKilogram: TUnit absolute ReciprocalSquareRootKilogramUnit;

1/√kg - reciprocal square root kilogram.

ReciprocalSquareRootMeter: TUnit absolute ReciprocalSquareRootMeterUnit;

1/√m - reciprocal square root meter: SI unit of reciprocal square root of length.

ReciprocalSquareRootMole: TUnit absolute ReciprocalSquareRootMoleUnit;

1/√mol - reciprocal square root mole.

ReciprocalSquareRootQuinticAmpere: TUnit absolute ReciprocalSquareRootQuinticAmpereUnit;

1/√A⁵ - reciprocal square root quintic ampere.

ReciprocalSquareRootQuinticCandela: TUnit absolute ReciprocalSquareRootQuinticCandelaUnit;

1/√cd⁵ - reciprocal square root quintic candela.

ReciprocalSquareRootQuinticKelvin: TUnit absolute ReciprocalSquareRootQuinticKelvinUnit;

1/√K⁵ - reciprocal square root quintic kelvin.

ReciprocalSquareRootQuinticKilogram: TUnit absolute ReciprocalSquareRootQuinticKilogramUnit;

1/√kg⁵ - reciprocal square root quintic kilogram.

ReciprocalSquareRootQuinticMeter: TUnit absolute ReciprocalSquareRootQuinticMeterUnit;

1/√m⁵ - reciprocal square root quintic meter.

ReciprocalSquareRootQuinticMole: TUnit absolute ReciprocalSquareRootQuinticMoleUnit;

1/√mol⁵ - reciprocal square root quintic mole.

ReciprocalSquareRootQuinticSecond: TUnit absolute ReciprocalSquareRootQuinticSecondUnit;

1/√s⁵ - reciprocal square root quintic second.

ReciprocalSquareRootQuinticSteradian: TUnit absolute ReciprocalSquareRootQuinticSteradianUnit;

1/√sr⁵ - reciprocal square root quintic steradian.

ReciprocalSquareRootSecond: TUnit absolute ReciprocalSquareRootSecondUnit;

1/√s - reciprocal square root second.

ReciprocalSquareRootSteradian: TUnit absolute ReciprocalSquareRootSteradianUnit;

1/√sr - reciprocal square root steradian.

ReciprocalSquareSecond: TUnit absolute ReciprocalSquareSecondUnit;

1/s² - reciprocal square second: unit of square frequency; equivalent to Hz².

ReciprocalSquareSecondAmpere: TUnit absolute ReciprocalSquareSecondAmpereUnit;

1/s²/A - reciprocal square second ampere.

ReciprocalSquareSecondKelvin: TUnit absolute ReciprocalSquareSecondKelvinUnit;

1/s²/K - reciprocal square second kelvin.

ReciprocalSquareSecondKelvinMole: TUnit absolute ReciprocalSquareSecondKelvinMoleUnit;

1/s²/K/mol - reciprocal square second kelvin mole.

ReciprocalSquareSecondMole: TUnit absolute ReciprocalSquareSecondMoleUnit;

1/s²/mol - reciprocal square second mole.

ReciprocalSquareSecondSquareAmpere: TUnit absolute ReciprocalSquareSecondSquareAmpereUnit;

1/s²/A² - reciprocal square second square ampere.

ReciprocalSquareSecondSteradian: TUnit absolute ReciprocalSquareSecondSteradianUnit;

1/s²/sr - reciprocal square second steradian.

ReciprocalSquareSteradian: TUnit absolute ReciprocalSquareSteradianUnit;

1/sr² - reciprocal square steradian.

ReciprocalSteradian: TUnit absolute ReciprocalSteradianUnit;

1/sr - reciprocal steradian.

ReciprocalTesla: TUnit absolute ReciprocalTeslaUnit;

1/T - reciprocal tesla.

ReciprocalWatt: TUnit absolute ReciprocalWattUnit;

1/W - reciprocal watt.

ReciprocalWeber: TUnit absolute ReciprocalWeberUnit;

1/Wb - reciprocal weber.

Ry: TFactoredUnit absolute RydbergUnit;

Ry - rydberg: unit of energy used in atomic physics; 1 Ry = 2.1798724e-18 J.

Rydberg: TFactoredUnit absolute RydbergUnit;

Ry - rydberg: unit of energy used in atomic physics; 1 Ry = 2.1798724e-18 J.

s: TUnit absolute SecondUnit;

s - second: SI base unit of time.

s2: TUnit absolute SquareSecondUnit;

s² - square second: unit of square time.

s3: TUnit absolute CubicSecondUnit;

s³ - cubic second: SI unit of cubic time.

s4: TUnit absolute QuarticSecondUnit;

s⁴ - quartic second: SI unit of quartic time.

s5: TUnit absolute QuinticSecondUnit;

s⁵ - quintic second: SI unit of quintic time.

s6: TUnit absolute SexticSecondUnit;

s⁶ - sextic second: SI unit of sextic time.

Scalar: TUnit absolute ScalarUnit;

dimensionless real number.

Second: TUnit absolute SecondUnit;

s - second: SI base unit of time.

SecondCandela: TUnit absolute SecondCandelaUnit;

s.cd - second candela.

SecondCandelaPerCubicMeter: TUnit absolute SecondCandelaPerCubicMeterUnit;

s.cd/m³ - second candela per cubic meter.

SecondCandelaPerSquareMeter: TUnit absolute SecondCandelaPerSquareMeterUnit;

s.cd/m² - second candela per square meter.

SecondPerCubicMeter: TUnit absolute SecondPerCubicMeterUnit;

s/m³ - second per cubic meter.

SecondPerKilogram: TUnit absolute SecondPerKilogramUnit;

s/kg - second per kilogram.

SecondPerKilogramPerMeter: TUnit absolute SecondPerKilogramPerMeterUnit;

s/kg/m - second per kilogram per meter.

SecondPerKilogramPerSquareMeter: TUnit absolute SecondPerKilogramPerSquareMeterUnit;

s/kg/m² - second per kilogram per square meter.

SecondPerMeter: TUnit absolute SecondPerMeterUnit;

s/m - second per meter: SI unit of slowness.

SecondPerMole: TUnit absolute SecondPerMoleUnit;

s/mol - second per mole.

SecondPerRadian: TUnit absolute SecondPerRadianUnit;

s/rad - second per radian.

SecondPerSquareMeter: TUnit absolute SecondPerSquareMeterUnit;

s/m² - second per square meter.

SecondPerSquareMeterPerSteradian: TUnit absolute SecondPerSquareMeterPerSteradianUnit;

s/m²/sr - second per square meter per steradian.

SecondPerSteradian: TUnit absolute SecondPerSteradianUnit;

s/sr - second per steradian.

SecondSteradian: TUnit absolute SecondSteradianUnit;

s.sr - second steradian.

SecondSteradianPerCubicMeter: TUnit absolute SecondSteradianPerCubicMeterUnit;

s.sr/m³ - second steradian per cubic meter.

SecondSteradianPerSquareMeter: TUnit absolute SecondSteradianPerSquareMeterUnit;

s.sr/m² - second steradian per square meter.

SexticAmpere: TUnit absolute SexticAmpereUnit;

A⁶ - sextic ampere.

SexticCandela: TUnit absolute SexticCandelaUnit;

cd⁶ - sextic candela.

SexticKelvin: TUnit absolute SexticKelvinUnit;

K⁶ - sextic kelvin.

SexticKilogram: TUnit absolute SexticKilogramUnit;

kg⁶ - sextic kilogram.

SexticMeter: TUnit absolute SexticMeterUnit;

m⁶ - sextic meter: SI derived unit of sextic length.

SexticMole: TUnit absolute SexticMoleUnit;

mol⁶ - sextic mole.

SexticRootAmpere: TUnit absolute SexticRootAmpereUnit;

⁶√A - sextic root ampere.

SexticRootCandela: TUnit absolute SexticRootCandelaUnit;

⁶√cd - sextic root candela.

SexticRootKelvin: TUnit absolute SexticRootKelvinUnit;

⁶√K - sextic root kelvin.

SexticRootKilogram: TUnit absolute SexticRootKilogramUnit;

⁶√kg - sextic root kilogram.

SexticRootMeter: TUnit absolute SexticRootMeterUnit;

⁶√m - sextic root meter.

SexticRootMole: TUnit absolute SexticRootMoleUnit;

⁶√mol - sextic root mole.

SexticRootSecond: TUnit absolute SexticRootSecondUnit;

⁶√s - sextic root second.

SexticRootSteradian: TUnit absolute SexticRootSteradianUnit;

⁶√sr - sextic root steradian.

SexticSecond: TUnit absolute SexticSecondUnit;

s⁶ - sextic second: SI unit of sextic time.

SexticSecondPerMeter: TUnit absolute SexticSecondPerMeterUnit;

s⁶/m - sextic second per meter.

SexticSecondPerQuarticMeter: TUnit absolute SexticSecondPerQuarticMeterUnit;

s⁶/m⁴ - sextic second per quartic meter.

SexticSecondPerSquareKilogram: TUnit absolute SexticSecondPerSquareKilogramUnit;

s⁶/kg² - sextic second per square kilogram.

SexticSecondPerSquareKilogramPerQuarticMeter: TUnit absolute SexticSecondPerSquareKilogramPerQuarticMeterUnit;

s⁶/kg²/m⁴ - sextic second per square kilogram per quartic meter.

SexticSecondSquareAmpere: TUnit absolute SexticSecondSquareAmpereUnit;

s⁶.A² - sextic second square ampere.

SexticSecondSquareAmperePerQuarticMeter: TUnit absolute SexticSecondSquareAmperePerQuarticMeterUnit;

s⁶.A²/m⁴ - sextic second square ampere per quartic meter.

SexticSecondSquareAmperePerSquareKilogram: TUnit absolute SexticSecondSquareAmperePerSquareKilogramUnit;

s⁶.A²/kg² - sextic second square ampere per square kilogram.

SexticSecondSquareAmperePerSquareKilogramPerQuarticMeter: TUnit absolute SexticSecondSquareAmperePerSquareKilogramPerQuarticMeterUnit;

s⁶.A²/kg²/m⁴ - sextic second square ampere per square kilogram per quartic meter.

SexticSteradian: TUnit absolute SexticSteradianUnit;

sr⁶ - sextic steradian.

siemens: TUnit absolute SiemensUnit;

S - siemens: SI derived unit of electric conductance; 1 S = 1/Ω.

SiemensPerMeter: TUnit absolute SiemensPerMeterUnit;

S/m - siemens per meter: SI unit of electric conductivity.

Sievert: TUnit absolute SievertUnit;

Sv - sievert: SI derived unit of radiation dose equivalent; 1 Sv = 1 J/kg.

SquareAmpere: TUnit absolute SquareAmpereUnit;

A² - square ampere: unit of square electric current.

SquareAmpereCubicSecondPerKilogramPerSquareMeter: TUnit absolute SquareAmpereCubicSecondPerKilogramPerSquareMeterUnit;

A²·s³/kg/m² - square ampere cubic second per kilogram per square meter: SI unit of electric conductance; equivalent to S.

SquareAmperePerCubicMeter: TUnit absolute SquareAmperePerCubicMeterUnit;

A²/m³ - square ampere per cubic meter.

SquareAmperePerKilogram: TUnit absolute SquareAmperePerKilogramUnit;

A²/kg - square ampere per kilogram.

SquareAmperePerKilogramPerCubicMeter: TUnit absolute SquareAmperePerKilogramPerCubicMeterUnit;

A²/kg/m³ - square ampere per kilogram per cubic meter.

SquareAmperePerKilogramPerMeter: TUnit absolute SquareAmperePerKilogramPerMeterUnit;

A²/kg/m - square ampere per kilogram per meter.

SquareAmperePerKilogramPerSquareMeter: TUnit absolute SquareAmperePerKilogramPerSquareMeterUnit;

A²/kg/m² - square ampere per kilogram per square meter.

SquareAmperePerMeter: TUnit absolute SquareAmperePerMeterUnit;

A²/m - square ampere per meter.

SquareAmperePerQuarticMeter: TUnit absolute SquareAmperePerQuarticMeterUnit;

A²/m⁴ - square ampere per quartic meter.

SquareAmperePerSquareKilogram: TUnit absolute SquareAmperePerSquareKilogramUnit;

A²/kg² - square ampere per square kilogram.

SquareAmperePerSquareKilogramPerQuarticMeter: TUnit absolute SquareAmperePerSquareKilogramPerQuarticMeterUnit;

A²/kg²/m⁴ - square ampere per square kilogram per quartic meter.

SquareAmperePerSquareMeter: TUnit absolute SquareAmperePerSquareMeterUnit;

A²/m² - square ampere per square meter.

SquareAmpereQuarticSecondPerKilogramPerSquareMeter: TUnit absolute SquareAmpereQuarticSecondPerKilogramPerSquareMeterUnit;

A²·s⁴/kg/m² - square ampere quartic second per kilogram per square meter: SI unit of electric capacitance; equivalent to F.

SquareAmpereSquareSecond: TUnit absolute SquareAmpereSquareSecondUnit;

A²·s² - square ampere square second: SI unit of square electric charge; equivalent to C².

SquareCandela: TUnit absolute SquareCandelaUnit;

cd² - square candela.

SquareCoulomb: TUnit absolute SquareCoulombUnit;

C² - square coulomb: SI unit of square electric charge.

SquareCoulombPerMeter: TUnit absolute SquareCoulombPerMeterUnit;

C²/m - square coulomb per meter.

SquareDay: TFactoredUnit absolute SquareDayUnit;

day² - square day: unit of square time; 1 day² = 86400² s².

SquareDegree: TFactoredUnit absolute SquareDegreeUnit;

deg² - square degree: unit of solid angle; 1 deg² = (pi/180)² sr.

SquareFoot: TFactoredUnit absolute SquareFootUnit;

ft² - square foot: imperial unit of area; 1 ft² = 0.09290304 m².

SquareHertz: TUnit absolute SquareHertzUnit;

Hz² - square hertz: unit of square frequency; 1 Hz² = 1/s².

SquareHour: TFactoredUnit absolute SquareHourUnit;

hr² - square hour: unit of square time; 1 hr² = 3600² s².

SquareInch: TFactoredUnit absolute SquareInchUnit;

in² - square inch: imperial unit of area; 1 in² = 6.4516e-4 m².

SquareJoule: TUnit absolute SquareJouleUnit;

J² - square joule.

SquareJouleSquareSecond: TUnit absolute SquareJouleSquareSecondUnit;

J²·s² - square joule square second.

SquareKelvin: TUnit absolute SquareKelvinUnit;

K² - square kelvin: unit of square temperature.

SquareKilogram: TUnit absolute SquareKilogramUnit;

kg² - square kilogram: unit of square mass.

SquareKilogramPerMeter: TUnit absolute SquareKilogramPerMeterUnit;

kg²/m - square kilogram per meter.

SquareKilogramPerQuarticSecond: TUnit absolute SquareKilogramPerQuarticSecondUnit;

kg²/s⁴ - square kilogram per quartic second.

SquareKilogramPerSexticSecond: TUnit absolute SquareKilogramPerSexticSecondUnit;

kg²/s⁶ - square kilogram per sextic second.

SquareKilogramPerSexticSecondPerSquareAmpere: TUnit absolute SquareKilogramPerSexticSecondPerSquareAmpereUnit;

kg²/s⁶/A² - square kilogram per sextic second per square ampere.

SquareKilogramPerSquareAmpere: TUnit absolute SquareKilogramPerSquareAmpereUnit;

kg²/A² - square kilogram per square ampere.

SquareKilogramPerSquareMeter: TUnit absolute SquareKilogramPerSquareMeterUnit;

kg²/m² - square kilogram per square meter.

SquareKilogramPerSquareSecond: TUnit absolute SquareKilogramPerSquareSecondUnit;

kg²/s² - square kilogram per square second.

SquareKilogramQuarticMeter: TUnit absolute SquareKilogramQuarticMeterUnit;

kg².m⁴ - square kilogram quartic meter.

SquareKilogramQuarticMeterPerSexticSecond: TUnit absolute SquareKilogramQuarticMeterPerSexticSecondUnit;

kg².m⁴/s⁶ - square kilogram quartic meter per sextic second.

SquareKilogramQuarticMeterPerSquareAmpere: TUnit absolute SquareKilogramQuarticMeterPerSquareAmpereUnit;

kg².m⁴/A² - square kilogram quartic meter per square ampere.

SquareKilogramQuarticMeterPerSquareAmperePerSexticSecond: TUnit absolute SquareKilogramQuarticMeterPerSquareAmperePerSexticSecondUnit;

kg²·m⁴/A²/s⁶ - square kilogram quartic meter per square ampere per sextic second: SI unit of square electric potential; equivalent to V².

SquareKilogramSquareMeter: TUnit absolute SquareKilogramSquareMeterUnit;

kg².m² - square kilogram square meter.

SquareKilogramSquareMeterPerQuarticSecond: TUnit absolute SquareKilogramSquareMeterPerQuarticSecondUnit;

kg²·m²/s⁴ - square kilogram square meter per quartic second: SI unit of square force; equivalent to N².

SquareKilogramSquareMeterPerSquareSecond: TUnit absolute SquareKilogramSquareMeterPerSquareSecondUnit;

kg²·m²/s² - square kilogram square meter per square second.

SquareMeter: TUnit absolute SquareMeterUnit;

m² - square meter: SI unit of area.

SquareMeterAmpere: TUnit absolute SquareMeterAmpereUnit;

m²·A - square meter ampere: SI unit of magnetic moment.

SquareMeterKelvin: TUnit absolute SquareMeterKelvinUnit;

m²·K - square meter kelvin.

SquareMeterPerAmpere: TUnit absolute SquareMeterPerAmpereUnit;

m²/A - square meter per ampere.

SquareMeterPerCandela: TUnit absolute SquareMeterPerCandelaUnit;

m²/cd - square meter per candela.

SquareMeterPerCandelaPerSteradian: TUnit absolute SquareMeterPerCandelaPerSteradianUnit;

m²/cd/sr - square meter per candela per steradian.

SquareMeterPerCubicSecondPerAmpere: TUnit absolute SquareMeterPerCubicSecondPerAmpereUnit;

m²/s³/A - square meter per cubic second per ampere.

SquareMeterPerCubicSecondPerCandela: TUnit absolute SquareMeterPerCubicSecondPerCandelaUnit;

m²/s³/cd - square meter per cubic second per candela.

SquareMeterPerCubicSecondPerCandelaPerSteradian: TUnit absolute SquareMeterPerCubicSecondPerCandelaPerSteradianUnit;

m²/s³/cd/sr - square meter per cubic second per candela per steradian.

SquareMeterPerCubicSecondPerKelvin: TUnit absolute SquareMeterPerCubicSecondPerKelvinUnit;

m²/s³/K - square meter per cubic second per kelvin.

SquareMeterPerCubicSecondPerQuarticKelvin: TUnit absolute SquareMeterPerCubicSecondPerQuarticKelvinUnit;

m²/s³/K⁴ - square meter per cubic second per quartic kelvin.

SquareMeterPerCubicSecondPerSquareAmpere: TUnit absolute SquareMeterPerCubicSecondPerSquareAmpereUnit;

m²/s³/A² - square meter per cubic second per square ampere.

SquareMeterPerCubicSecondPerSteradian: TUnit absolute SquareMeterPerCubicSecondPerSteradianUnit;

m²/s³/sr - square meter per cubic second per steradian.

SquareMeterPerKelvin: TUnit absolute SquareMeterPerKelvinUnit;

m²/K - square meter per kelvin.

SquareMeterPerKelvinPerMole: TUnit absolute SquareMeterPerKelvinPerMoleUnit;

m²/K/mol - square meter per kelvin per mole.

SquareMeterPerKilogram: TUnit absolute SquareMeterPerKilogramUnit;

m²/kg - square meter per kilogram.

SquareMeterPerMole: TUnit absolute SquareMeterPerMoleUnit;

m²/mol - square meter per mole.

SquareMeterPerQuarticKelvin: TUnit absolute SquareMeterPerQuarticKelvinUnit;

m²/K⁴ - square meter per quartic kelvin.

SquareMeterPerQuarticSecond: TUnit absolute SquareMeterPerQuarticSecondUnit;

m²/s⁴ - square meter per quartic second.

SquareMeterPerQuarticSecondPerSquareAmpere: TUnit absolute SquareMeterPerQuarticSecondPerSquareAmpereUnit;

m²/s⁴/A² - square meter per quartic second per square ampere.

SquareMeterPerSecond: TUnit absolute SquareMeterPerSecondUnit;

m²/s - square meter per second: SI unit of kinematic viscosity.

SquareMeterPerSecondPerAmpere: TUnit absolute SquareMeterPerSecondPerAmpereUnit;

m²/s/A - square meter per second per ampere.

SquareMeterPerSecondPerCandela: TUnit absolute SquareMeterPerSecondPerCandelaUnit;

m²/s/cd - square meter per second per candela.

SquareMeterPerSecondPerCandelaPerSteradian: TUnit absolute SquareMeterPerSecondPerCandelaPerSteradianUnit;

m²/s/cd/sr - square meter per second per candela per steradian.

SquareMeterPerSecondPerSteradian: TUnit absolute SquareMeterPerSecondPerSteradianUnit;

m²/s/sr - square meter per second per steradian.

SquareMeterPerSquareAmpere: TUnit absolute SquareMeterPerSquareAmpereUnit;

m²/A² - square meter per square ampere.

SquareMeterPerSquareCoulomb: TUnit absolute SquareMeterPerSquareCoulombUnit;

m²/C² - square meter per square coulomb.

SquareMeterPerSquareKilogram: TUnit absolute SquareMeterPerSquareKilogramUnit;

m²/kg² - square meter per square kilogram.

SquareMeterPerSquareSecond: TUnit absolute SquareMeterPerSquareSecondUnit;

m²/s² - square meter per square second: SI unit of specific energy.

SquareMeterPerSquareSecondPerAmpere: TUnit absolute SquareMeterPerSquareSecondPerAmpereUnit;

m²/s²/A - square meter per square second per ampere.

SquareMeterPerSquareSecondPerKelvin: TUnit absolute SquareMeterPerSquareSecondPerKelvinUnit;

m²/s²/K - square meter per square second per kelvin: SI unit of specific heat capacity; equivalent to J/kg/K.

SquareMeterPerSquareSecondPerKelvinPerMole: TUnit absolute SquareMeterPerSquareSecondPerKelvinPerMoleUnit;

m²/s²/K/mol - square meter per square second per kelvin per mole.

SquareMeterPerSquareSecondPerMole: TUnit absolute SquareMeterPerSquareSecondPerMoleUnit;

m²/s²/mol - square meter per square second per mole.

SquareMeterPerSquareSecondPerSteradian: TUnit absolute SquareMeterPerSquareSecondPerSteradianUnit;

m²/s²/sr - square meter per square second per steradian.

SquareMeterPerSteradian: TUnit absolute SquareMeterPerSteradianUnit;

m²/sr - square meter per steradian.

SquareMeterQuarticKelvin: TUnit absolute SquareMeterQuarticKelvinUnit;

m²·K⁴ - square meter quartic kelvin.

SquareMeterSquareSecond: TUnit absolute SquareMeterSquareSecondUnit;

m².s² - square meter square second.

SquareMeterSquareSecondPerKilogram: TUnit absolute SquareMeterSquareSecondPerKilogramUnit;

m².s²/kg - square meter square second per kilogram.

SquareMeterSteradian: TUnit absolute SquareMeterSteradianUnit;

m²·sr - square meter steradian.

SquareMeterSteradianHertz: TUnit absolute SquareMeterSteradianHertzUnit;

m²·sr·Hz - square meter steradian hertz.

SquareMile: TFactoredUnit absolute SquareMileUnit;

mi² - square mile: imperial unit of area; 1 mi² = 2589988.110336 m².

SquareMinute: TFactoredUnit absolute SquareMinuteUnit;

min² - square minute: unit of square time; 1 min² = 60² s².

SquareMole: TUnit absolute SquareMoleUnit;

mol² - square mole.

SquareNewton: TUnit absolute SquareNewtonUnit;

N² - square newton: SI unit of square force.

SquareRootAmpere: TUnit absolute SquareRootAmpereUnit;

√A - square root ampere.

SquareRootCandela: TUnit absolute SquareRootCandelaUnit;

√cd - square root candela.

SquareRootCubicAmpere: TUnit absolute SquareRootCubicAmpereUnit;

√A³ - square root cubic ampere.

SquareRootCubicCandela: TUnit absolute SquareRootCubicCandelaUnit;

√cd³ - square root cubic candela.

SquareRootCubicKelvin: TUnit absolute SquareRootCubicKelvinUnit;

√K³ - square root cubic kelvin.

SquareRootCubicKilogram: TUnit absolute SquareRootCubicKilogramUnit;

√kg³ - square root cubic kilogram.

SquareRootCubicMeter: TUnit absolute SquareRootCubicMeterUnit;

√m³ - square root cubic meter.

SquareRootCubicMole: TUnit absolute SquareRootCubicMoleUnit;

√mol³ - square root cubic mole.

SquareRootCubicSecond: TUnit absolute SquareRootCubicSecondUnit;

√s³ - square root cubic second.

SquareRootCubicSteradian: TUnit absolute SquareRootCubicSteradianUnit;

√sr³ - square root cubic steradian.

SquareRootKelvin: TUnit absolute SquareRootKelvinUnit;

√K - square root kelvin.

SquareRootKilogram: TUnit absolute SquareRootKilogramUnit;

√kg - square root kilogram.

SquareRootMeter: TUnit absolute SquareRootMeterUnit;

√m — square root meter: unit of square root of length.

SquareRootMole: TUnit absolute SquareRootMoleUnit;

√mol - square root mole.

SquareRootQuinticAmpere: TUnit absolute SquareRootQuinticAmpereUnit;

√A⁵ - square root quintic ampere.

SquareRootQuinticCandela: TUnit absolute SquareRootQuinticCandelaUnit;

√cd⁵ - square root quintic candela.

SquareRootQuinticKelvin: TUnit absolute SquareRootQuinticKelvinUnit;

√K⁵ - square root quintic kelvin.

SquareRootQuinticKilogram: TUnit absolute SquareRootQuinticKilogramUnit;

√kg⁵ - square root quintic kilogram.

SquareRootQuinticMeter: TUnit absolute SquareRootQuinticMeterUnit;

√m⁵ - square root quintic meter.

SquareRootQuinticMole: TUnit absolute SquareRootQuinticMoleUnit;

√mol⁵ - square root quintic mole.

SquareRootQuinticSecond: TUnit absolute SquareRootQuinticSecondUnit;

√s⁵ - square root quintic second.

SquareRootQuinticSteradian: TUnit absolute SquareRootQuinticSteradianUnit;

√sr⁵ - square root quintic steradian.

SquareRootSecond: TUnit absolute SquareRootSecondUnit;

√s - square root second.

SquareRootSteradian: TUnit absolute SquareRootSteradianUnit;

√sr - square root steradian.

SquareSecond: TUnit absolute SquareSecondUnit;

s² - square second: unit of square time.

SquareSecondAmpere: TUnit absolute SquareSecondAmpereUnit;

s².A - square second ampere.

SquareSecondAmperePerKilogramPerMeter: TUnit absolute SquareSecondAmperePerKilogramPerMeterUnit;

s².A/kg/m - square second ampere per kilogram per meter.

SquareSecondAmperePerMeter: TUnit absolute SquareSecondAmperePerMeterUnit;

s².A/m - square second ampere per meter.

SquareSecondAmperePerSquareMeter: TUnit absolute SquareSecondAmperePerSquareMeterUnit;

s².A/m² - square second ampere per square meter.

SquareSecondKelvin: TUnit absolute SquareSecondKelvinUnit;

s².K - square second kelvin.

SquareSecondKelvinMole: TUnit absolute SquareSecondKelvinMoleUnit;

s².K.mol - square second kelvin mole.

SquareSecondKelvinMolePerKilogram: TUnit absolute SquareSecondKelvinMolePerKilogramUnit;

s².K.mol/kg - square second kelvin mole per kilogram.

SquareSecondKelvinMolePerKilogramPerSquareMeter: TUnit absolute SquareSecondKelvinMolePerKilogramPerSquareMeterUnit;

s².K.mol/kg/m² - square second kelvin mole per kilogram per square meter.

SquareSecondKelvinMolePerSquareMeter: TUnit absolute SquareSecondKelvinMolePerSquareMeterUnit;

s².K.mol/m² - square second kelvin mole per square meter.

SquareSecondKelvinPerKilogram: TUnit absolute SquareSecondKelvinPerKilogramUnit;

s².K/kg - square second kelvin per kilogram.

SquareSecondKelvinPerKilogramPerSquareMeter: TUnit absolute SquareSecondKelvinPerKilogramPerSquareMeterUnit;

s².K/kg/m² - square second kelvin per kilogram per square meter.

SquareSecondKelvinPerSquareMeter: TUnit absolute SquareSecondKelvinPerSquareMeterUnit;

s².K/m² - square second kelvin per square meter.

SquareSecondMole: TUnit absolute SquareSecondMoleUnit;

s².mol - square second mole.

SquareSecondMolePerKilogram: TUnit absolute SquareSecondMolePerKilogramUnit;

s².mol/kg - square second mole per kilogram.

SquareSecondMolePerKilogramPerSquareMeter: TUnit absolute SquareSecondMolePerKilogramPerSquareMeterUnit;

s².mol/kg/m² - square second mole per kilogram per square meter.

SquareSecondMolePerSquareMeter: TUnit absolute SquareSecondMolePerSquareMeterUnit;

s².mol/m² - square second mole per square meter.

SquareSecondPerCubicMeter: TUnit absolute SquareSecondPerCubicMeterUnit;

s²/m³ - square second per cubic meter.

SquareSecondPerKilogram: TUnit absolute SquareSecondPerKilogramUnit;

s²/kg - square second per kilogram.

SquareSecondPerKilogramPerCubicMeter: TUnit absolute SquareSecondPerKilogramPerCubicMeterUnit;

s²/kg/m³ - square second per kilogram per cubic meter.

SquareSecondPerKilogramPerQuarticMeter: TUnit absolute SquareSecondPerKilogramPerQuarticMeterUnit;

s²/kg/m⁴ - square second per kilogram per quartic meter.

SquareSecondPerKilogramPerSquareMeter: TUnit absolute SquareSecondPerKilogramPerSquareMeterUnit;

s²/kg/m² - square second per kilogram per square meter.

SquareSecondPerMeter: TUnit absolute SquareSecondPerMeterUnit;

s²/m - square second per meter.

SquareSecondPerQuarticMeter: TUnit absolute SquareSecondPerQuarticMeterUnit;

s²/m⁴ - square second per quartic meter.

SquareSecondPerSquareKilogram: TUnit absolute SquareSecondPerSquareKilogramUnit;

s²/kg² - square second per square kilogram.

SquareSecondPerSquareKilogramPerQuarticMeter: TUnit absolute SquareSecondPerSquareKilogramPerQuarticMeterUnit;

s²/kg²/m⁴ - square second per square kilogram per quartic meter.

SquareSecondPerSquareKilogramPerSquareMeter: TUnit absolute SquareSecondPerSquareKilogramPerSquareMeterUnit;

s²/kg²/m² - square second per square kilogram per square meter.

SquareSecondPerSquareMeter: TUnit absolute SquareSecondPerSquareMeterUnit;

s²/m² - square second per square meter.

SquareSecondPerSteradian: TUnit absolute SquareSecondPerSteradianUnit;

s²/sr - square second per steradian.

SquareSecondSquareAmperePerKilogram: TUnit absolute SquareSecondSquareAmperePerKilogramUnit;

s².A²/kg - square second square ampere per kilogram.

SquareSecondSquareAmperePerKilogramPerMeter: TUnit absolute SquareSecondSquareAmperePerKilogramPerMeterUnit;

s².A²/kg/m - square second square ampere per kilogram per meter.

SquareSecondSquareAmperePerSquareMeter: TUnit absolute SquareSecondSquareAmperePerSquareMeterUnit;

s².A²/m² - square second square ampere per square meter.

SquareSecondSteradian: TUnit absolute SquareSecondSteradianUnit;

s².sr - square second steradian.

SquareSecondSteradianPerKilogram: TUnit absolute SquareSecondSteradianPerKilogramUnit;

s².sr/kg - square second steradian per kilogram.

SquareSecondSteradianPerKilogramPerSquareMeter: TUnit absolute SquareSecondSteradianPerKilogramPerSquareMeterUnit;

s².sr/kg/m² - square second steradian per kilogram per square meter.

SquareSecondSteradianPerSquareMeter: TUnit absolute SquareSecondSteradianPerSquareMeterUnit;

s².sr/m² - square second steradian per square meter.

SquareSteradian: TUnit absolute SquareSteradianUnit;

sr² - square steradian.

SquareVolt: TUnit absolute SquareVoltUnit;

V² - square volt: SI unit of square electric potential.

SquareYard: TFactoredUnit absolute SquareYardUnit;

yd² - square yard: imperial unit of area; 1 yd² = 0.83612736 m².

sr: TUnit absolute SteradianUnit;

sr - steradian: SI derived unit of solid angle.

st: TFactoredUnit absolute StoneUnit;

st - stone: unit of mass; 1 st = 6.35029318 kg.

Steradian: TUnit absolute SteradianUnit;

sr - steradian: SI derived unit of solid angle.

SteradianHertz: TUnit absolute SteradianHertzUnit;

sr·Hz - steradian hertz.

SteradianPerCubicMeter: TUnit absolute SteradianPerCubicMeterUnit;

sr/m³ - steradian per cubic meter.

SteradianPerKilogram: TUnit absolute SteradianPerKilogramUnit;

sr/kg - steradian per kilogram.

SteradianPerKilogramPerMeter: TUnit absolute SteradianPerKilogramPerMeterUnit;

sr/kg/m - steradian per kilogram per meter.

SteradianPerKilogramPerSquareMeter: TUnit absolute SteradianPerKilogramPerSquareMeterUnit;

sr/kg/m² - steradian per kilogram per square meter.

SteradianPerMeter: TUnit absolute SteradianPerMeterUnit;

sr/m - steradian per meter.

SteradianPerSquareMeter: TUnit absolute SteradianPerSquareMeterUnit;

sr/m² - steradian per square meter.

SteradianPerSquareSecond: TUnit absolute SteradianPerSquareSecondUnit;

sr/s² - steradian per square second: unit of solid angular acceleration.

Stone: TFactoredUnit absolute StoneUnit;

st - stone: unit of mass; 1 st = 6.35029318 kg.

Sv: TUnit absolute SievertUnit;

Sv - sievert: SI derived unit of radiation dose equivalent; 1 Sv = 1 J/kg.

T: TUnit absolute TeslaUnit;

T - tesla: SI derived unit of magnetic flux density; 1 T = 1 Wb/m².

Tesla: TUnit absolute TeslaUnit;

T - tesla: SI derived unit of magnetic flux density; 1 T = 1 Wb/m².

TeslaMeter: TUnit absolute TeslaMeterUnit;

T·m - tesla meter: SI unit of magnetic rigidity.

TeslaMeterPerAmpere: TUnit absolute TeslaMeterPerAmpereUnit;

T·m/A - tesla meter per ampere: SI unit of magnetic permeability; equivalent to H/m.

TeslaPerAmpere: TUnit absolute TeslaPerAmpereUnit;

T/A - tesla per ampere: SI unit of magnetic flux density per current.

ton: TFactoredUnit absolute TonUnit;

ton - short ton: unit of mass; 1 ton = 907.18474 kg.

tonne: TFactoredUnit absolute TonneUnit;

t - tonne: unit of mass; 1 t = 1000 kg.

Torr: TFactoredUnit absolute TorrUnit;

Torr - torr: unit of pressure; 1 Torr = 133.322 Pa.

V: TUnit absolute VoltUnit;

V - volt: SI derived unit of electric potential; 1 V = 1 J/C.

V2: TUnit absolute SquareVoltUnit;

V² - square volt: SI unit of square electric potential.

Volt: TUnit absolute VoltUnit;

V - volt: SI derived unit of electric potential; 1 V = 1 J/C.

VoltMeter: TUnit absolute VoltMeterUnit;

V·m - volt meter: SI unit of electric flux.

VoltMeterPerSecond: TUnit absolute VoltMeterPerSecondUnit;

V·m/s - volt meter per second: SI unit of rate of change of electric flux.

VoltPerMeter: TUnit absolute VoltPerMeterUnit;

V/m - volt per meter: SI unit of electric field strength.

W: TUnit absolute WattUnit;

W - watt: SI derived unit of power; 1 W = 1 J/s.

Watt: TUnit absolute WattUnit;

W - watt: SI derived unit of power; 1 W = 1 J/s.

WattPerCubicMeter: TUnit absolute WattPerCubicMeterUnit;

W/m³ - watt per cubic meter: SI unit of volumetric power density.

WattPerCubicMeterPerSteradian: TUnit absolute WattPerCubicMeterPerSteradianUnit;

W/m³/sr - watt per cubic meter per steradian.

WattPerHertz: TUnit absolute WattPerHertzUnit;

W/Hz - watt per hertz: SI unit of spectral energy density.

WattPerKelvin: TUnit absolute WattPerKelvinUnit;

W/K - watt per kelvin: SI unit of thermal conductance.

WattPerMeter: TUnit absolute WattPerMeterUnit;

W/m - watt per meter: SI unit of linear power density.

WattPerMeterPerKelvin: TUnit absolute WattPerMeterPerKelvinUnit;

W/m/K - watt per meter per kelvin: SI unit of thermal conductivity.

WattPerMeterPerSteradian: TUnit absolute WattPerMeterPerSteradianUnit;

W/sr/m - watt per steradian per meter.

WattPerQuarticKelvin: TUnit absolute WattPerQuarticKelvinUnit;

W/K⁴ - watt per quartic kelvin.

WattPerSquareMeter: TUnit absolute WattPerSquareMeterUnit;

W/m² - watt per square meter: SI unit of irradiance and heat flux density.

WattPerSquareMeterPerHertz: TUnit absolute WattPerSquareMeterPerHertzUnit;

W/m²/Hz - watt per square meter per hertz: SI unit of spectral irradiance.

WattPerSquareMeterPerKelvin: TUnit absolute WattPerSquareMeterPerKelvinUnit;

W/m²/K - watt per square meter per kelvin: SI unit of heat transfer coefficient.

WattPerSquareMeterPerQuarticKelvin: TUnit absolute WattPerSquareMeterPerQuarticKelvinUnit;

W/m²/K⁴ - watt per square meter per quartic kelvin.

WattPerSquareMeterPerSteradian: TUnit absolute WattPerSquareMeterPerSteradianUnit;

W/m²/sr - watt per square meter per steradian: SI unit of radiance.

WattPerSquareMeterPerSteradianPerHertz: TUnit absolute WattPerSquareMeterPerSteradianPerHertzUnit;

W/m²/sr/Hz - watt per square meter per steradian per hertz: SI unit of spectral radiance.

WattPerSteradian: TUnit absolute WattPerSteradianUnit;

W/sr - watt per steradian: SI unit of radiant intensity.

WattPerSteradianPerHertz: TUnit absolute WattPerSteradianPerHertzUnit;

W/sr/Hz - watt per steradian per hertz.

WattSecond: TUnit absolute WattSecondUnit;

W·s - watt second: unit of energy; equivalent to J.

Wb: TUnit absolute WeberUnit;

Wb - weber: SI derived unit of magnetic flux; 1 Wb = 1 V·s.

Weber: TUnit absolute WeberUnit;

Wb - weber: SI derived unit of magnetic flux; 1 Wb = 1 V·s.

WeberPerSquareMeter: TUnit absolute WeberPerSquareMeterUnit;

Wb/m² - weber per square meter: SI unit of magnetic flux density; equivalent to T.

Yard: TFactoredUnit absolute YardUnit;

yd - yard: imperial unit of length; 1 yd = 0.9144 m.

yd: TFactoredUnit absolute YardUnit;

yd - yard: imperial unit of length; 1 yd = 0.9144 m.

yd2: TFactoredUnit absolute SquareYardUnit;

yd² - square yard: imperial unit of area; 1 yd² = 0.83612736 m².

yd3: TFactoredUnit absolute CubicYardUnit;

yd³ - cubic yard: imperial unit of volume; 1 yd³ = 0.764554857984 m³.

Author

• Melchiorre Caruso (melchiorrecaruso@gmail.com)

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