%% %% This is file `physunits.sty', %% generated with the docstrip utility. %% %% The original source files were: %% %% physunits.dtx (with options: `package') %% %% This is a generated file. %% %% Copyright (C) 2020 by Brian W. Mulligan %% %% This file may be distributed and/or modified under the conditions of %% the LaTeX Project Public License, either version 1.3c of this license %% or (at your option) any later version. The latest version of this %% license is in: %% %% http://www.latex-project.org/lppl.txt %% %% and version 1.3c or later is part of all distributions of LaTeX %% version 2006/05/20 or later. %% \NeedsTeXFormat{LaTeX2e}[1994/06/01] \ProvidesPackage{physunits} [2020/03/26 v1.0.4 Physical units package] \ProcessOptions\relax \makeatletter \DeclareRobustCommand{\units@separator}{\,} \ifx\micro\undefined \DeclareRobustCommand{\micro}{\ensuremath{% \mu}} \fi \DeclareRobustCommand{\V}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1V}}} \DeclareRobustCommand{\Volt}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1V}}} \DeclareRobustCommand{\Coulomb}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1C}}} \DeclareRobustCommand{\esu}{\ensuremath{% \expandafter\units@separator\mathrm{esu}}} \DeclareRobustCommand{\Ohm}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1\Omega}}} \DeclareRobustCommand{\Amp}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1A}}} \DeclareRobustCommand{\Farad}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1F}}} \DeclareRobustCommand{\Tesla}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1T}}} \DeclareRobustCommand{\Gauss}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1G}}} \DeclareRobustCommand{\Henry}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1H}}} \DeclareRobustCommand{\eV}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1eV}}} \DeclareRobustCommand{\keV}{\ensuremath{% \expandafter\units@separator\mathrm{keV}}} \DeclareRobustCommand{\MeV}{\ensuremath{% \expandafter\units@separator\mathrm{MeV}}} \DeclareRobustCommand{\J}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1J}}} \DeclareRobustCommand{\Joule}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1J}}} \DeclareRobustCommand{\erg}{\ensuremath{% \expandafter\units@separator\mathrm{erg}}} \DeclareRobustCommand{\kcal}{\ensuremath{% \expandafter\units@separator\mathrm{kcal}}} \DeclareRobustCommand{\Cal}{\ensuremath{% \expandafter\units@separator\mathrm{Cal}}} \DeclareRobustCommand{\calorie}[1][ ]{% \ensuremath{% \expandafter\units@separator\mathrm{#1cal}}} \DeclareRobustCommand{\BTU}{\ensuremath{% \expandafter\units@separator\mathrm{BTU}}} \DeclareRobustCommand{\tnt}{\ensuremath{% \expandafter\units@separator\mathrm{ton% \expandafter\units@separator of% \expandafter\units@separator TNT}}} \DeclareRobustCommand{\Watt}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1W}}} \DeclareRobustCommand{\hpi}{\ensuremath{% \expandafter\units@separator\mathrm{hp(I)}}} \DeclareRobustCommand{\hpm}{\ensuremath{% \expandafter\units@separator\mathrm{hp(M)}}} \DeclareRobustCommand{\hp}{\ensuremath{% \expandafter\units@separator\mathrm{hp}}} \DeclareRobustCommand{\meter}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1m}}} \DeclareRobustCommand{\m}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1m}}} \DeclareRobustCommand{\km}{\ensuremath{% \expandafter\units@separator\mathrm{km}}} \DeclareRobustCommand{\au}{\ensuremath{% \expandafter\units@separator\mathrm{au}}} \DeclareRobustCommand{\pc}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1pc}}} \DeclareRobustCommand{\ly}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1ly}}} \DeclareRobustCommand{\cm}{\ensuremath{% \expandafter\units@separator\mathrm{cm}}} \DeclareRobustCommand{\nm}{\ensuremath{% \expandafter\units@separator\mathrm{nm}}} \DeclareRobustCommand{\ft}{\ensuremath{% \expandafter\units@separator\mathrm{ft}}} \DeclareRobustCommand{\inch}{\ensuremath{% \expandafter\units@separator\mathrm{in}}} \DeclareRobustCommand{\mi}{\ensuremath{% \expandafter\units@separator\mathrm{mi}}} \DeclareRobustCommand{\s}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1s}}} \DeclareRobustCommand{\Sec}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1s}}} \DeclareRobustCommand{\Min}{\ensuremath{% \expandafter\units@separator\mathrm{min}}} \DeclareRobustCommand{\h}{\ensuremath{% \expandafter\units@separator\mathrm{h}}} \DeclareRobustCommand{\y}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1y}}} \DeclareRobustCommand{\Day}{\ensuremath{% \expandafter\units@separator\mathrm{d}}} \DeclareRobustCommand{\gm}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1g}}} \DeclareRobustCommand{\kg}{\ensuremath{% \expandafter\units@separator\mathrm{kg}}} \DeclareRobustCommand{\lb}{\ensuremath{% \expandafter\units@separator\mathrm{lb}}} \DeclareRobustCommand{\amu}{\ensuremath{% \expandafter\units@separator\mathrm{amu}}} \DeclareRobustCommand{\N}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1N}}} \DeclareRobustCommand{\Newton}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1N}}} \DeclareRobustCommand{\dyne}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1dyn}}} \DeclareRobustCommand{\lbf}{\ensuremath{% \expandafter\units@separator\mathrm{lbf}}} \DeclareRobustCommand{\kmps}{\ensuremath{% \expandafter\units@separator\mathrm{km}% \expandafter\units@separator\mathrm{s}^{-1}}} \DeclareRobustCommand{\kmph}{\ensuremath{% \expandafter\units@separator\mathrm{km}% \expandafter\units@separator\mathrm{h}^{-1}}} \DeclareRobustCommand{\mps}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1m}% \expandafter\units@separator\mathrm{s}^{-1}}} \DeclareRobustCommand{\miph}{\ensuremath{% \expandafter\units@separator\mathrm{mi}% \expandafter\units@separator\mathrm{h}^{-1}}} \DeclareRobustCommand{\kts}{\ensuremath{% \expandafter\units@separator\mathrm{kts}}} \DeclareRobustCommand{\mpss}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1m}% \expandafter\units@separator\mathrm{s}^{-2}}} \DeclareRobustCommand{\gacc}{\ensuremath{% \expandafter\units@separator\mathrm{g}}} \DeclareRobustCommand{\ftpss}{\ensuremath{% \expandafter\units@separator\mathrm{ft}% \expandafter\units@separator\mathrm{s}^{-2}}} \DeclareRobustCommand{\K}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1K}}} \DeclareRobustCommand{\Kelvin}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1K}}} \DeclareRobustCommand{\Celcius}{\ensuremath{\expandafter\units@separator{}% ^\circ\mathrm{C}}} \DeclareRobustCommand{\Rankine}{\ensuremath{% \expandafter\units@separator{}^\circ\mathrm{R}}} \DeclareRobustCommand{\Fahrenheit}{\ensuremath{% \expandafter\units@separator{}^\circ\mathrm{F}}} \DeclareRobustCommand{\rpm}{\ensuremath{% \expandafter\units@separator\mathrm{rev}% \expandafter\units@separator\Min^{-1}}} \DeclareRobustCommand{\Hz}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1Hz}}} \DeclareRobustCommand{\barP}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1bar}}} \DeclareRobustCommand{\atm}{\ensuremath{% \expandafter\units@separator\mathrm{atm}}} \DeclareRobustCommand{\Pa}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1Pa}}} \DeclareRobustCommand{\mmHg}{\ensuremath{% \expandafter\units@separator\mathrm{mmHg}}} \DeclareRobustCommand{\inHg}{\ensuremath{% \expandafter\units@separator\mathrm{inHg}}} \DeclareRobustCommand{\lbsi}{\ensuremath{% \expandafter\units@separator\mathrm{psi}}} \DeclareRobustCommand{\lbsf}{\ensuremath{% \expandafter\units@separator\mathrm{psf}}} \DeclareRobustCommand{\Ba}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1Ba}}} \DeclareRobustCommand{\Torr}[1][ ]{\ensuremath{% \expandafter\units@separator\mathrm{#1Torr}}} \DeclareRobustCommand{\mol}{\ensuremath{% \expandafter\units@separator\mathrm{mol}}} \makeatother \endinput %% %% End of file `physunits.sty'.