Dimensions#
- class sycomore.Dimensions#
Physical dimensions of a quantity
- __eq__(self: sycomore._sycomore.Dimensions, arg0: sycomore._sycomore.Dimensions) bool #
- __hash__ = None#
- __imul__(self: sycomore._sycomore.Dimensions, arg0: sycomore._sycomore.Dimensions) sycomore._sycomore.Dimensions #
- __init__(self: sycomore._sycomore.Dimensions, length: float = 0, mass: float = 0, time: float = 0, electric_current: float = 0, thermodynamic_temperature: float = 0, amount_of_substance: float = 0, luminous_intensity: float = 0) None #
- __itruediv__(self: sycomore._sycomore.Dimensions, arg0: sycomore._sycomore.Dimensions) sycomore._sycomore.Dimensions #
- __mul__(self: sycomore._sycomore.Dimensions, arg0: sycomore._sycomore.Dimensions) sycomore._sycomore.Dimensions #
- __ne__(self: sycomore._sycomore.Dimensions, arg0: sycomore._sycomore.Dimensions) bool #
- __pow__(self: sycomore._sycomore.Dimensions, arg0: int) sycomore._sycomore.Dimensions #
- __repr__(self: sycomore._sycomore.Dimensions) str #
- __truediv__(self: sycomore._sycomore.Dimensions, arg0: sycomore._sycomore.Dimensions) sycomore._sycomore.Dimensions #
- property amount_of_substance#
- property electric_current#
- property length#
- property luminous_intensity#
- property mass#
- property thermodynamic_temperature#
- property time#
Known Dimensions#
- sycomore.Length = [ L ]#
Physical dimensions of a quantity
- sycomore.Time = [ T ]#
Physical dimensions of a quantity
- sycomore.Mass = [ M ]#
Physical dimensions of a quantity
- sycomore.ElectricCurrent = [ I ]#
Physical dimensions of a quantity
- sycomore.ThermodynamicTemperature = [ Θ ]#
Physical dimensions of a quantity
- sycomore.AmountOfSubstance = [ N ]#
Physical dimensions of a quantity
- sycomore.LuminousIntensity = [ J ]#
Physical dimensions of a quantity
- sycomore.Surface = [ L^2 ]#
Physical dimensions of a quantity
- sycomore.Volume = [ L^3 ]#
Physical dimensions of a quantity
- sycomore.Velocity = [ L T^-1 ]#
Physical dimensions of a quantity
- sycomore.Acceleration = [ L T^-2 ]#
Physical dimensions of a quantity
- sycomore.Angle = [ ]#
Physical dimensions of a quantity
- sycomore.SolidAngle = [ ]#
Physical dimensions of a quantity
- sycomore.Frequency = [ T^-1 ]#
Physical dimensions of a quantity
- sycomore.Force = [ L M T^-2 ]#
Physical dimensions of a quantity
- sycomore.Pressure = [ L^-1 M T^-2 ]#
Physical dimensions of a quantity
- sycomore.Energy = [ L^2 M T^-2 ]#
Physical dimensions of a quantity
- sycomore.Power = [ L^2 M T^-3 ]#
Physical dimensions of a quantity
- sycomore.ElectricCharge = [ T I ]#
Physical dimensions of a quantity
- sycomore.Voltage = [ L^2 M T^-3 I^-1 ]#
Physical dimensions of a quantity
- sycomore.Capacitance = [ L^-2 M^-1 T^4 I^2 ]#
Physical dimensions of a quantity
- sycomore.Resistance = [ L^2 M T^-3 I^-2 ]#
Physical dimensions of a quantity
- sycomore.ElectricalConductance = [ L^-2 M^-1 T^3 I^2 ]#
Physical dimensions of a quantity
- sycomore.MagneticFlux = [ L^2 M T^-2 I^-1 ]#
Physical dimensions of a quantity
- sycomore.MagneticFluxDensity = [ M T^-2 I^-1 ]#
Physical dimensions of a quantity
- sycomore.Inductance = [ L^2 M T^-2 I^-2 ]#
Physical dimensions of a quantity
- sycomore.LuminousFlux = [ J ]#
Physical dimensions of a quantity
- sycomore.Illuminance = [ L^-2 J ]#
Physical dimensions of a quantity
- sycomore.Radioactivity = [ T^-1 ]#
Physical dimensions of a quantity
- sycomore.AbsorbedDose = [ L^2 T^-2 ]#
Physical dimensions of a quantity
- sycomore.EquivalentDose = [ L^2 T^-2 ]#
Physical dimensions of a quantity
- sycomore.CatalyticActivity = [ T^-1 N ]#
Physical dimensions of a quantity
- sycomore.AngularFrequency = [ T^-1 ]#
Physical dimensions of a quantity