unitsSIΒΆ

class samson.DataModel.Quantity.unitsSI(*args, **kwargs)ΒΆ

Bases: pybind11_builtins.pybind11_object

Units system, serves as a wrapper between SBQuantity and Python

Overloaded function.

  1. __init__(self: samson.DataModel.Quantity.unitsSI) -> None

Constructs the zero dimensionless unit

  1. __init__(self: samson.DataModel.Quantity.unitsSI, v: float) -> None

Constructs the dimensionless unit with a given value v

  1. __init__(self: samson.DataModel.Quantity.unitsSI, value: float, scale: List[int], exponent: List[int]) -> None

Construct the physical unit with value, scale and exponent

  1. __init__(self: samson.DataModel.Quantity.unitsSI, u: samson.DataModel.Quantity.unitsSI) -> None

Constructs the physical unit from a given physical unit u

__add__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __add__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> samson.DataModel.Quantity.unitsSI
  2. __add__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> samson.DataModel.Quantity.unitsSI
__eq__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __eq__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  2. __eq__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  3. __eq__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> bool
__ge__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __ge__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  2. __ge__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  3. __ge__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> bool
__gt__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __gt__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  2. __gt__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  3. __gt__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> bool
__iadd__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __iadd__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> samson.DataModel.Quantity.unitsSI
  2. __iadd__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> samson.DataModel.Quantity.unitsSI
__imul__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __imul__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> samson.DataModel.Quantity.unitsSI
  2. __imul__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> samson.DataModel.Quantity.unitsSI
__isub__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __isub__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> samson.DataModel.Quantity.unitsSI
  2. __isub__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> samson.DataModel.Quantity.unitsSI
__itruediv__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __itruediv__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> samson.DataModel.Quantity.unitsSI
  2. __itruediv__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> samson.DataModel.Quantity.unitsSI
__le__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __le__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  2. __le__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  3. __le__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> bool
__lt__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __lt__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  2. __lt__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  3. __lt__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> bool
__mul__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __mul__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> samson.DataModel.Quantity.unitsSI
  2. __mul__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> samson.DataModel.Quantity.unitsSI
__ne__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __ne__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  2. __ne__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> bool
  3. __ne__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> bool
__neg__(self: samson.DataModel.Quantity.unitsSI) → samson.DataModel.Quantity.unitsSIΒΆ
__radd__(self: samson.DataModel.Quantity.unitsSI, arg0: float) → samson.DataModel.Quantity.unitsSIΒΆ
__rmul__(self: samson.DataModel.Quantity.unitsSI, arg0: float) → samson.DataModel.Quantity.unitsSIΒΆ
__rsub__(self: samson.DataModel.Quantity.unitsSI, arg0: float) → samson.DataModel.Quantity.unitsSIΒΆ
__rtruediv__(self: samson.DataModel.Quantity.unitsSI, arg0: float) → samson.DataModel.Quantity.unitsSIΒΆ
__sub__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __sub__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> samson.DataModel.Quantity.unitsSI
  2. __sub__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> samson.DataModel.Quantity.unitsSI
__truediv__(*args, **kwargs)ΒΆ

Overloaded function.

  1. __truediv__(self: samson.DataModel.Quantity.unitsSI, arg0: float) -> samson.DataModel.Quantity.unitsSI
  2. __truediv__(self: samson.DataModel.Quantity.unitsSI, arg0: samson.DataModel.Quantity.unitsSI) -> samson.DataModel.Quantity.unitsSI
static fromLinearInterpolation(q0: samson.DataModel.Quantity.unitsSI, q1: samson.DataModel.Quantity.unitsSI, alpha: float) → samson.DataModel.Quantity.unitsSIΒΆ

Returns a linear interpolation between two physical quantities q0 and q1 for a parameter alpha in the closed unit interval [0, 1].

toDebugString(self: samson.DataModel.Quantity.unitsSI) → strΒΆ
toString(self: samson.DataModel.Quantity.unitsSI, fullName: bool = False) → strΒΆ

Converts the physical quantity to a string (with a full unit name when fullName is true)

AΒΆ

value in ampere

DaΒΆ

convert to dalton

EhΒΆ

convert to hartree

GHzΒΆ

value in gigahertz

HzΒΆ

value in hertz

JΒΆ

convert to joule

JPerMolΒΆ

convert to joulePerMole

JPerMolToEhΒΆ

convert to hartree

JPerMolToeVΒΆ

convert to electronvolt

JperMolTokcalPerMolΒΆ

convert to kilocaloriePerMole

KΒΆ

value in kelvin

KHzΒΆ

value in kilohertz

MHzΒΆ

value in megahertz

NΒΆ

value in newton

a0ΒΆ

convert to a0

aAΒΆ

value in attoampere

aKΒΆ

value in attokelvin

acdΒΆ

value in attocandela

agΒΆ

value in attogram

amΒΆ

value in attometer

amolΒΆ

value in attomole

ampereΒΆ

value in ampere

angstromΒΆ

value in angstrom

asΒΆ

value in attosecond

attoampereΒΆ

value in attoampere

attocandelaΒΆ

value in attocandela

attogramΒΆ

value in attogram

attokelvinΒΆ

value in attokelvin

attometerΒΆ

value in attometer

attomoleΒΆ

value in attomole

attosecondΒΆ

value in attosecond

auChargeΒΆ

convert to auCharge

auMassΒΆ

convert to auMass

auTimeΒΆ

convert to auTime

bohrΒΆ

convert to bohr

cAΒΆ

value in centiampere

cKΒΆ

value in centikelvin

candelaΒΆ

value in candela

ccdΒΆ

value in centicandela

cdΒΆ

value in candela

centiampereΒΆ

value in centiampere

centicandelaΒΆ

value in centicandela

centigramΒΆ

value in centigram

centikelvinΒΆ

value in centikelvin

centimeterΒΆ

value in centimeter

centimoleΒΆ

value in centimole

centisecondΒΆ

value in centisecond

cgΒΆ

value in centigram

cmΒΆ

value in centimeter

cmolΒΆ

value in centimole

csΒΆ

value in centisecond

dAΒΆ

value in deciampere

dKΒΆ

value in decikelvin

daAΒΆ

value in decaampere

daKΒΆ

value in decakelvin

dacdΒΆ

value in decacandela

dagΒΆ

value in decagram

daltonΒΆ

convert to dalton

damΒΆ

value in decameter

damolΒΆ

value in decamole

dcdΒΆ

value in decicandela

decaampereΒΆ

value in decaampere

decacandelaΒΆ

value in decacandela

decagramΒΆ

value in decagram

decakelvinΒΆ

value in decakelvin

decameterΒΆ

value in decameter

decamoleΒΆ

value in decamole

deciampereΒΆ

value in deciampere

decicandelaΒΆ

value in decicandela

decigramΒΆ

value in decigram

decikelvinΒΆ

value in decikelvin

decimeterΒΆ

value in decimeter

decimoleΒΆ

value in decimole

decisecondΒΆ

value in decisecond

dgΒΆ

value in decigram

dmΒΆ

value in decimeter

dmolΒΆ

value in decimole

dsΒΆ

value in decisecond

eVΒΆ

convert to electronvolt

electronChargeΒΆ

convert to electronCharge

electronMassΒΆ

convert to electronMass

electronvoltΒΆ

convert to electronvolt

fAΒΆ

value in femtoampere

fKΒΆ

value in femtokelvin

fcdΒΆ

value in femtocandela

femtoampereΒΆ

value in femtoampere

femtocandelaΒΆ

value in femtocandela

femtogramΒΆ

value in femtogram

femtokelvinΒΆ

value in femtokelvin

femtometerΒΆ

value in femtometer

femtomoleΒΆ

value in femtomole

femtosecondΒΆ

value in femtosecond

fgΒΆ

value in femtogram

fmΒΆ

value in femtometer

fmolΒΆ

value in femtomole

fsΒΆ

value in femtosecond

gΒΆ

value in gram

gigahertzΒΆ

value in gigahertz

gramΒΆ

value in gram

hAΒΆ

value in hectoampere

hKΒΆ

value in hectokelvin

hartreeΒΆ

convert to hartree

hcdΒΆ

value in hectocandela

hectoampereΒΆ

value in hectoampere

hectocandelaΒΆ

value in hectocandela

hectogramΒΆ

value in hectogram

hectokelvinΒΆ

value in hectokelvin

hectometerΒΆ

value in hectometer

hectomoleΒΆ

value in hectomole

hertzΒΆ

value in hertz

hgΒΆ

value in hectogram

hmΒΆ

value in hectometer

hmolΒΆ

value in hectomole

isDimensionlessΒΆ

Returns true if the unit is dimensionless

jouleΒΆ

convert to joule

joulePerMoleΒΆ

convert to joulePerMole

joulePerMoleToElectronvoltΒΆ

convert to electronvolt

joulePerMoleToHartreeΒΆ

convert to hartree

joulePerMoleToKilocaloriePerMoleΒΆ

convert to kilocaloriePerMole

kAΒΆ

value in kiloampere

kJΒΆ

value in kilojoule

kKΒΆ

value in kilokelvin

kcalPerMolΒΆ

convert to kilocaloriePerMole

kcdΒΆ

value in kilocandela

kelvinΒΆ

value in kelvin

kgΒΆ

value in kilogram

kiloampereΒΆ

value in kiloampere

kilocaloriePerMoleΒΆ

convert to kilocaloriePerMole

kilocandelaΒΆ

value in kilocandela

kilogramΒΆ

value in kilogram

kilohertzΒΆ

value in kilohertz

kilojouleΒΆ

value in kilojoule

kilokelvinΒΆ

value in kilokelvin

kilometerΒΆ

value in kilometer

kilomoleΒΆ

value in kilomole

kmΒΆ

value in kilometer

kmolΒΆ

value in kilomole

mΒΆ

value in meter

mAΒΆ

value in milliampere

mKΒΆ

value in millikelvin

mcdΒΆ

value in millicandela

megahertzΒΆ

value in megahertz

meterΒΆ

value in meter

mgΒΆ

value in milligram

microampereΒΆ

value in microampere

microcandelaΒΆ

value in microcandela

microgramΒΆ

value in microgram

microkelvinΒΆ

value in microkelvin

micrometerΒΆ

value in micrometer

micromoleΒΆ

value in micromole

microsecondΒΆ

value in microsecond

milliampereΒΆ

value in milliampere

millicandelaΒΆ

value in millicandela

milligramΒΆ

value in milligram

millikelvinΒΆ

value in millikelvin

millimeterΒΆ

value in millimeter

millimoleΒΆ

value in millimole

millisecondΒΆ

value in millisecond

mmΒΆ

value in millimeter

mmolΒΆ

value in millimole

molΒΆ

value in mole

moleΒΆ

value in mole

msΒΆ

value in millisecond

nAΒΆ

value in nanoampere

nKΒΆ

value in nanokelvin

nNΒΆ

value in nanonewton

nanoampereΒΆ

value in nanoampere

nanocandelaΒΆ

value in nanocandela

nanogramΒΆ

value in nanogram

nanokelvinΒΆ

value in nanokelvin

nanometerΒΆ

value in nanometer

nanomoleΒΆ

value in nanomole

nanonewtonΒΆ

value in nanonewton

nanosecondΒΆ

value in nanosecond

ncdΒΆ

value in nanocandela

newtonΒΆ

value in newton

ngΒΆ

value in nanogram

nmΒΆ

value in nanometer

nmolΒΆ

value in nanomole

nsΒΆ

value in nanosecond

pAΒΆ

value in picoampere

pKΒΆ

value in picokelvin

pNΒΆ

value in piconewton

pcdΒΆ

value in picocandela

pgΒΆ

value in picogram

picoampereΒΆ

value in picoampere

picocandelaΒΆ

value in picocandela

picogramΒΆ

value in picogram

picokelvinΒΆ

value in picokelvin

picometerΒΆ

value in picometer

picomoleΒΆ

value in picomole

piconewtonΒΆ

value in piconewton

picosecondΒΆ

value in picosecond

pmΒΆ

value in picometer

pmolΒΆ

value in picomole

psΒΆ

value in picosecond

sΒΆ

value in second

secondΒΆ

value in second

sizeOfUnitSystemΒΆ
uAΒΆ

value in microampere

uKΒΆ

value in microkelvin

ucdΒΆ

value in microcandela

ugΒΆ

value in microgram

umΒΆ

value in micrometer

umolΒΆ

value in micromole

usΒΆ

value in microsecond

valueΒΆ

Returns value of the unit

yAΒΆ

value in yoctoampere

yKΒΆ

value in yoctokelvin

ycdΒΆ

value in yoctocandela

ygΒΆ

value in yoctogram

ymΒΆ

value in yoctometer

ymolΒΆ

value in yoctomole

yoctoampereΒΆ

value in yoctoampere

yoctocandelaΒΆ

value in yoctocandela

yoctogramΒΆ

value in yoctogram

yoctokelvinΒΆ

value in yoctokelvin

yoctometerΒΆ

value in yoctometer

yoctomoleΒΆ

value in yoctomole

yoctosecondΒΆ

value in yoctosecond

ysΒΆ

value in yoctosecond

zAΒΆ

value in zeptoampere

zJΒΆ

value in zeptojoule

zKΒΆ

value in zeptokelvin

zcdΒΆ

value in zeptocandela

zeptoampereΒΆ

value in zeptoampere

zeptocandelaΒΆ

value in zeptocandela

zeptogramΒΆ

value in zeptogram

zeptojouleΒΆ

value in zeptojoule

zeptokelvinΒΆ

value in zeptokelvin

zeptometerΒΆ

value in zeptometer

zeptomoleΒΆ

value in zeptomole

zeptosecondΒΆ

value in zeptosecond

zgΒΆ

value in zeptogram

zmΒΆ

value in zeptometer

zmolΒΆ

value in zeptomole

zsΒΆ

value in zeptosecond