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Add new physical dimensions

David Peter 2 years ago
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1 changed files with 16 additions and 0 deletions
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      modules/core/dimensions.nbt

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modules/core/dimensions.nbt
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@@ -11,6 +11,7 @@ dimension Time
 
 dimension Frequency = 1 / Time
 
 dimension Speed = Length / Time
 
 dimension Acceleration = Length / Time^2
 
+dimension Jerk = Length / Time^3
 
 
 dimension Mass
 
 dimension Momentum = Mass × Speed
 
@@ -20,19 +21,32 @@ dimension Power = Energy / Time = Force × Speed
 
 dimension Pressure = Force / Area = Energy / Volume
 
 dimension Action = Energy × Time
 
 dimension MassDensity = Mass / Length^3
 
+dimension MomentOfInertia = Mass × Length^2
 
+dimension AngularMomentum = MomentOfInertia × Angle / Time
 
+dimension Torque = Length × Force
 
+dimension EnergyDensity = Energy / Volume
 
 
 dimension Current
 
 dimension Charge = Current × Time
 
 dimension Voltage = Energy / Charge = Power / Current
 
 dimension Capacitance = Charge / Voltage
 
 dimension Resistance = Voltage / Current
 
+dimension Resistivity = Resistance × Length
 
 dimension Conductance = 1 / Resistance
 
+dimension Conductivity = Conductance / Length
 
 dimension MagneticFluxDensity = Force / (Charge × Speed)
 
 dimension MagneticFlux = MagneticFluxDensity × Area
 
 dimension MagneticFieldStrength = Current / Length
 
 dimension Inductance = MagneticFlux / Current
 
+dimension ChargeDensity = Charge / Volume
 
+dimension CurrentDensity = Current / Area
 
+dimension ElectricDipoleMoment = Current × Length
 
+dimension MagneticDipoleMoment = Current × Area = Torque / MagneticFluxDensity
 
+dimension ElectricFieldStrength = Voltage / Length
 
 
 dimension Temperature
 
+dimension Entropy = Energy / Temperature
 
+dimension HeatCapacity = Energy / Temperature
 
 
 dimension AmountOfSubstance
 
 dimension Concentration = AmountOfSubstance / Volume
 
@@ -40,10 +54,12 @@ dimension MolarMass = Mass / AmountOfSubstance
 
 dimension CatalyticActivity = AmountOfSubstance / Time
 
 dimension Molarity = AmountOfSubstance / Volume
 
 dimension Molality = AmountOfSubstance / Mass
 
+dimension ChemicalPotential = Energy / AmountOfSubstance
 
 
 dimension LuminousIntensity
 
 dimension LuminousFlux = LuminousIntensity × Angle^2
 
 dimension Illuminance = LuminousFlux / Area
 
+dimension Irradiance = Power / Area
 
 
 dimension Activity = 1 / Time
 
 dimension AbsorbedDose = Energy / Mass