Python/electronics/electric_conductivity.py

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from __future__ import annotations
ELECTRON_CHARGE = 1.6021e-19 # units = C
def electric_conductivity(
conductivity: float,
electron_conc: float,
mobility: float,
) -> tuple[str, float]:
"""
This function can calculate any one of the three -
1. Conductivity
2. Electron Concentration
3. Electron Mobility
This is calculated from the other two provided values
Examples -
>>> electric_conductivity(conductivity=25, electron_conc=100, mobility=0)
('mobility', 1.5604519068722301e+18)
>>> electric_conductivity(conductivity=0, electron_conc=1600, mobility=200)
('conductivity', 5.12672e-14)
>>> electric_conductivity(conductivity=1000, electron_conc=0, mobility=1200)
('electron_conc', 5.201506356240767e+18)
"""
if (conductivity, electron_conc, mobility).count(0) != 1:
raise ValueError("You cannot supply more or less than 2 values")
elif conductivity < 0:
raise ValueError("Conductivity cannot be negative")
elif electron_conc < 0:
raise ValueError("Electron concentration cannot be negative")
elif mobility < 0:
raise ValueError("mobility cannot be negative")
elif conductivity == 0:
return (
"conductivity",
mobility * electron_conc * ELECTRON_CHARGE,
)
elif electron_conc == 0:
return (
"electron_conc",
conductivity / (mobility * ELECTRON_CHARGE),
)
else:
return (
"mobility",
conductivity / (electron_conc * ELECTRON_CHARGE),
)
if __name__ == "__main__":
import doctest
doctest.testmod()