úÎ!)…'Ù     "Copyright (C) 2015 Douglas McCleanBSD3douglas.mcclean@gmail.comStableNone.UV'5 dimensional-codataOne twelfth of the A of an unbound atom of carbon-12 at rest and in its ground state.dimensional-codata>The number of consitutent particles that are contained in the  given by one .dimensional-codataÿ}The electric constant, also commonly called the vacuum permittivity or permittivity of free space, is an ideal physical constant, which is the value of the absolute dielectric permittivity of classical vacuum. It is the capability of the vacuum to permit electric field lines. This constant relates the units for electric charge to mechanical quantities such as length and force.:The value given here is exact if you use exact arithmetic.dimensional-codata The rest  of an electron.dimensional-codataThe amount of N gained (or lost) by the charge of a single electron moved across an electric  of one .dimensional-codataThe n carried by a single proton, or equivalently, the negation of the electric charge carried by a single electrondimensional-codataThe magnitude of  per  of electrons. dimensional-codataÿúThe magnetic constant, also commonly called the vacuum permeability, permeability of free space, or permeability of vacuum is an ideal physical constant, which is the value of magnetic permeability in a classical vacuum. Vacuum permeability is derived from production of a magnetic field by an electric current or by a moving electric charge and in all other formulas for magnetic-field production in a vacuum. In the reference medium of classical vacuum it has an exact value in the SI system of units.:The value given here is exact if you use exact arithmetic. dimensional-codata“According to the Newtonian law of universal gravitation, the attractive force between two bodies is directly proportional to the product of their 4es, and inversely proportional to the square of the s of the distance between them. The empirical constant of proportionality is the Newtonian constant of gravitation.dimensional-codata The rest  of an proton.dimensional-codata\The speed of light in a vacuum is exact because it forms the basis of the definition of the .dimensional-codataThe nominal gravitational « of an object in a vacuum near the surface of the Earth, as defined by standard. This value was established by the 3rd General Conference on Weights and Measures in 1901.        !"#$4dimensional-codata-2014.0.0.2-2Jq9jKsJSv3JYkldoHVqwJ Numeric.Units.Dimensional.CodataatomicMassConstantavogadroConstantboltzmannConstantconductanceQuantumelectricConstant electronMass electronVoltelementaryChargefaradayConstantfineStructureConstantmagneticConstantmagneticFluxQuantummolarGasConstantnewtonianConstantOfGravitationplanckConstant protonMassrydbergConstantspeedOfLightInVacuumstandardAccelerationOfGravitystefanBoltzmannConstant&dimensional-1.3-E77PIpXNkkSIRWBpcRRHsZNumeric.Units.DimensionalMassAmountOfSubstance!Numeric.Units.Dimensional.SIUnitsmole$Numeric.Units.Dimensional.QuantitiesEnergyPotentialDifferencevoltElectricChargeLengthmeter Acceleration