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add electric conductivity algorithm (#7449)
* add electric conductivity algorithm * Update electric_conductivity.py * Apply suggestions from code review Co-authored-by: Caeden Perelli-Harris <caedenperelliharris@gmail.com> * Update electric_conductivity.py * Update electric_conductivity.py * Update electric_conductivity.py * add algorithm Co-authored-by: Caeden Perelli-Harris <caedenperelliharris@gmail.com>
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electronics/electric_conductivity.py
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electronics/electric_conductivity.py
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from __future__ import annotations
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ELECTRON_CHARGE = 1.6021e-19 # units = C
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def electric_conductivity(
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conductivity: float,
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electron_conc: float,
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mobility: float,
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) -> tuple[str, float]:
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"""
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This function can calculate any one of the three -
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1. Conductivity
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2. Electron Concentration
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3. Electron Mobility
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This is calculated from the other two provided values
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Examples -
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>>> electric_conductivity(conductivity=25, electron_conc=100, mobility=0)
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('mobility', 1.5604519068722301e+18)
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>>> electric_conductivity(conductivity=0, electron_conc=1600, mobility=200)
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('conductivity', 5.12672e-14)
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>>> electric_conductivity(conductivity=1000, electron_conc=0, mobility=1200)
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('electron_conc', 5.201506356240767e+18)
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"""
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if (conductivity, electron_conc, mobility).count(0) != 1:
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raise ValueError("You cannot supply more or less than 2 values")
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elif conductivity < 0:
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raise ValueError("Conductivity cannot be negative")
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elif electron_conc < 0:
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raise ValueError("Electron concentration cannot be negative")
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elif mobility < 0:
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raise ValueError("mobility cannot be negative")
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elif conductivity == 0:
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return (
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"conductivity",
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mobility * electron_conc * ELECTRON_CHARGE,
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)
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elif electron_conc == 0:
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return (
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"electron_conc",
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conductivity / (mobility * ELECTRON_CHARGE),
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)
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else:
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return (
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"mobility",
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conductivity / (electron_conc * ELECTRON_CHARGE),
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)
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if __name__ == "__main__":
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import doctest
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doctest.testmod()
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51
physics/sheer_stress.py
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physics/sheer_stress.py
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from __future__ import annotations
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def sheer_stress(
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stress: float,
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tangential_force: float,
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area: float,
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) -> tuple[str, float]:
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"""
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This function can calculate any one of the three -
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1. Sheer Stress
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2. Tangential Force
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3. Cross-sectional Area
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This is calculated from the other two provided values
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Examples -
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>>> sheer_stress(stress=25, tangential_force=100, area=0)
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('area', 4.0)
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>>> sheer_stress(stress=0, tangential_force=1600, area=200)
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('stress', 8.0)
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>>> sheer_stress(stress=1000, tangential_force=0, area=1200)
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('tangential_force', 1200000)
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"""
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if (stress, tangential_force, area).count(0) != 1:
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raise ValueError("You cannot supply more or less than 2 values")
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elif stress < 0:
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raise ValueError("Stress cannot be negative")
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elif tangential_force < 0:
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raise ValueError("Tangential Force cannot be negative")
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elif area < 0:
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raise ValueError("Area cannot be negative")
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elif stress == 0:
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return (
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"stress",
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tangential_force / area,
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)
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elif tangential_force == 0:
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return (
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"tangential_force",
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stress * area,
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)
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else:
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return (
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"area",
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tangential_force / stress,
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)
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if __name__ == "__main__":
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import doctest
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doctest.testmod()
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