diff options
author | Karl Berry <karl@freefriends.org> | 2013-04-10 22:43:48 +0000 |
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committer | Karl Berry <karl@freefriends.org> | 2013-04-10 22:43:48 +0000 |
commit | 0730097276ae76ef9b4c2178d2dd5f974d63f6ee (patch) | |
tree | 61a369eca61c38f2e6da6a7f630e363924929e4c | |
parent | d0224698c54d3adbbc6826bbf42ccb0cfaa0df2a (diff) |
mandi (10apr13)
git-svn-id: svn://tug.org/texlive/trunk@29837 c570f23f-e606-0410-a88d-b1316a301751
-rw-r--r-- | Master/texmf-dist/doc/latex/mandi/README.txt | 10 | ||||
-rw-r--r-- | Master/texmf-dist/doc/latex/mandi/mandi.pdf | bin | 907395 -> 924550 bytes | |||
-rw-r--r-- | Master/texmf-dist/source/latex/mandi/mandi.dtx | 746 | ||||
-rw-r--r-- | Master/texmf-dist/source/latex/mandi/mandi.ins | 2 | ||||
-rw-r--r-- | Master/texmf-dist/tex/latex/mandi/mandi.sty | 307 |
5 files changed, 663 insertions, 402 deletions
diff --git a/Master/texmf-dist/doc/latex/mandi/README.txt b/Master/texmf-dist/doc/latex/mandi/README.txt deleted file mode 100644 index eaa43321f25..00000000000 --- a/Master/texmf-dist/doc/latex/mandi/README.txt +++ /dev/null @@ -1,10 +0,0 @@ -The mandi package provides commands for typesetting symbols, expressions, and -quantities used in introductory physics and astronomy. Many of the commands are -inspired by Matter & Interactions by Ruth Chabay and Bruce Sherwood. Many of -the astronomical commands were inspired by my own classroom needs. It must be -understood that mandi does not do any computations! It only provides commands -for typesetting. - -Run the file mandi.dtx through (pdf)LaTeX to generate README (this file), -mandi.ins, mandi.sty, vdemo.py, and mandi.pdf (user documentation). I assume -a TeXLive2011 or later distribution is installed. diff --git a/Master/texmf-dist/doc/latex/mandi/mandi.pdf b/Master/texmf-dist/doc/latex/mandi/mandi.pdf Binary files differindex 07cbcbcb0fd..85590a4e470 100644 --- a/Master/texmf-dist/doc/latex/mandi/mandi.pdf +++ b/Master/texmf-dist/doc/latex/mandi/mandi.pdf diff --git a/Master/texmf-dist/source/latex/mandi/mandi.dtx b/Master/texmf-dist/source/latex/mandi/mandi.dtx index 20b03d7c31b..564715327bd 100644 --- a/Master/texmf-dist/source/latex/mandi/mandi.dtx +++ b/Master/texmf-dist/source/latex/mandi/mandi.dtx @@ -32,23 +32,10 @@ %</internal> % %<*package> -\ProvidesPackage{mandi}[2012/12/31 2.0.0 Macros for intro physics and astronomy] +\ProvidesPackage{mandi}[2013/04/10 2.1.0 Macros for intro physics and astronomy] \NeedsTeXFormat{LaTeX2e}[1999/12/01] %</package> % -%<*readme> -The mandi package provides commands for typesetting symbols, expressions, and -quantities used in introductory physics and astronomy. Many of the commands are -inspired by Matter & Interactions by Ruth Chabay and Bruce Sherwood. Many of -the astronomical commands were inspired by my own classroom needs. It must be -understood that mandi does not do any computations! It only provides commands -for typesetting. - -Run the file mandi.dtx through (pdf)LaTeX to generate README (this file), -mandi.ins, mandi.sty, vdemo.py, and mandi.pdf (user documentation). I assume -a TeXLive2011 or later distribution is installed. -%</readme> -% %<*vdemo> from __future__ import print_function, division from visual import * @@ -117,8 +104,6 @@ and includes the derived files README \generate{\file{\jobname.ins}{\from{\jobname.dtx}{install}}} \generate{\usepreamble\empty\usepostamble\empty \file{vdemo.py}{\from{\jobname.dtx}{vdemo}}} -\generate{\usepreamble\empty\usepostamble\empty - \file{README.txt}{\from{\jobname.dtx}{readme}}} \obeyspaces \Msg{*************************************************************} @@ -140,8 +125,6 @@ and includes the derived files README \generate{\file{\jobname.ins}{\from{\jobname.dtx}{install}}} \generate{\usepreamble\empty\usepostamble\empty \file{vdemo.py}{\from{\jobname.dtx}{vdemo}}} -\generate{\usepreamble\empty\usepostamble\empty - \file{README.txt}{\from{\jobname.dtx}{readme}}} \ifx\fmtname\nameofplainTeX \expandafter\endbatchfile \else @@ -205,7 +188,7 @@ and includes the derived files README % underlined refer to the definition; numbers in roman refer to the % pages/codelines where the entry is used.} % -% \CheckSum{4386} +% \CheckSum{4843} % % \CharacterTable % {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z @@ -227,7 +210,7 @@ and includes the derived files README % \active,\advance,\AtBeginOfPackageFile,\baselineskip,\begin,\begingroup,\Big,\Bigg, % \boolean,\bullet,\boldsymbol,\BODY,\box,\cancelto,\caption,\catcode,\cbcolor,\cbend, % \cbstart,\centerline,\color,\changebarsep,\changebarwidth,\char,\clist,\cr,\cs, -% \csname,\csundef, +% \csname,\csundef,\circ,\cdot, % \DeclareFontShape,\DeclareGraphicsRule,\DeclareMathAlphabet,\DeclareMathOperator, % \DeclareOption,\def,\definecolor,\dimen,\displaystyle,\dp,\else,\end,\endcsname, % \endgroup,\ensuremath,\equal,\ExecuteOptions,\expandafter,\ExplSyntaxOff, @@ -249,12 +232,12 @@ and includes the derived files README % \DoNotIndex{\activity@fbox,\@eolst,\@firstofone,\@firstoftwo,\Mathstrutbox@,\mi@delim, % \mi@exchangeargs,\mi@forkifnull,\mi@innername,\mi@name,\mi@vector,\oldr@@t,\rc@delim, % \rc@vector,\response@fbox,\resetMathstrut@,\r@@t,\@tempa,\@tempb,\@tempboxa, -% \@secondoftwo,\z@} +% \@secondoftwo,\z@,\@ifpackageloaded} % % \DoNotIndex{\selectbaseunit,\selectdrvdunit,\selecttradunit,\selectunit, % \redefinephysicsquantity,\redefinephysicsconstant,\definephysicsquantity, % \definephysicsconstant,\innerdefinewhatsoeverquantity, -% \innerdefinewhatsoeverquantityfork,} +% \innerdefinewhatsoeverquantityfork,\chkphysicsquantity} % % \DoNotIndex{\alpha,\beta,\chi,\delta,\Delta,\epsilon,\eta,\gamma,\Gamma,\iota,\kappa, % \lambda,\Lambda,\mu,\nu,\omega,\Omega,\phi,\Phi,\pi,\Pi,\psi,\Psi,\rho,\sigma,\Sigma, @@ -265,19 +248,16 @@ and includes the derived files README % \ldots,\ln,\log,\mathcalligra,\nabla,\oint,\oldsqrt,\prime,\pm,\sec,\sech,\sin,\sinh, % \sqrt,\star,\tan,\tanh,\times,\vec} % -% \DoNotIndex{\ampere,\arcminute,\arcsecond,\candela,\coulomb,\coulombbase,\cubed,\cubic, -% \degree,\derjoule,\electronvolt,\farad,\fourth,\henry,\hertz,\hertzbase,\hour,\joule, -% \jouleperkelvin,\kelvin,\kilogram,\kilogrammetrepersecond,\kilogrampermetre, -% \kilogrammetrepersecondnp,\kilogrammetrepersquaresecondnp,\kilogrampermetrenp, -% \kilogrampersquaremetre,\kilogrampersquaremetrenp,\kilogrampercubicmetre, -% \kilogrampercubicmetrenp,\kilogramsquaremetrepersecondnp,\kilogramsquaremetre, -% \kilogramsquaremetrepersecond,\metre,\metrepersecond,\metrepersecondnp, -% \metrepersquaresecond,\metrepersquaresecondnp,\mole,\nano,\newton,\newtonpermetre, -% \newtonperkilogram,\newtonpersquaremetre,\newtonsecond,\pascal,\pascalbase,\per, -% \radian,\radianpersecond,\radianpersecondnp,\radianpersquaresecond, -% \radianpersquaresecondnp,\reciprocal,\rp,\rpsquare,\rpsquared,\rpcubed,\rpcubic, -% \rpfourth,\second,\SIminus,\sipower,\square,\squared,\squaremetre,\steradian,\tesla, -% \unit,\usk,\volt,\watt,\wattbase} +% \DoNotIndex{\ampere,\arcminute,\arcsecond,\atomicmassunit,\candela,\coulomb, +% \degree,\electronvolt,\farad,\henry,\hertz,\hour,\joule,\kelvin,\kilogram, +% \metre,\minute,\mole,\newton,\ohm,\pascal,\per,\radian,\second,\siemens, +% \steradian,\tesla,\unit,\usk,\volt,\watt,\weber} +% +% \DoNotIndex{\C,\F,\H,\J,\N,\rad,\S,\T,\V,\W} +% +% \DoNotIndex{\square,\cubic,\quartic,\reciprocal,\reciprocalsquare,\reciprocalcubic, +% \reciprocalquartic,\squared,\cubed,\quarted,\reciprocaled,\reciprocalsquared, +% \reciprocalcubed,\reciprocalquarted} % % \providecommand*{\url}{\texttt} % \GetFileInfo{\jobname.sty} @@ -291,7 +271,13 @@ and includes the derived files README % % ^^A \centerline{\textbf{PLEASE DO NOT DISTRIBUTE THIS VERSION.}} % -% \changes{v2.0.0beta}{\today}{First public release} +% \changes{v2.0.0}{\today}{First public release} +% \changes{v2.1.0}{\today}{No longer needs \pkgname{SIunits}. It's deprecated} +% \changes{v2.1.0}{\today}{Coexists with \pkgname{siunitx}.} +% \changes{v2.1.0}{\today}{Coexists with \pkgname{physymb}. Load \pkgname{physymb} +% before \pkgname{mandi}.} +% \changes{v2.1.0}{\today}{Added more predefined quantities.} +% \changes{v2.1.0}{\today}{Improved vector operators.} % % \tableofcontents % \newpage @@ -550,13 +536,12 @@ and includes the derived files README % particular combinations of base units. An example of a derived unit is the % newton, for which the symbol (it is not an abbreviation) is \newton. However, % the symbol \newton\ is merely a nickname for a particular combination of base -% units, specifically \newtonbase. It is not the case that every unique combination -% of base units has a nickname, but those that do are usually named in honor of a -% scientist. Incidentally, in such cases, the symbol is capitalized but the -% \textit{name} of the unit is \textbf{never} capitalized. Thus we would write the -% name of the derived unit of force as newton and not Newton. Again, using these -% select nicknames for certain combinations of base units is what we mean by -% \drvdunits\ form. +% units. It is not the case that every unique combination of base units has a nickname, +% but those that do are usually named in honor of a scientist. Incidentally, in such +% cases, the symbol is capitalized but the \textit{name} of the unit is \textbf{never} +% capitalized. Thus we would write the name of the derived unit of force as newton and +% not Newton. Again, using these select nicknames for certain combinations of base units +% is what we mean by \drvdunits\ form. % % \newpage % \subsection{Defining Physics Quantities} @@ -565,9 +550,11 @@ and includes the derived files README %\iffalse %<*example> %\fi -\begin{tcblisting}{title=define a physics quantity,listing only} -\newphysicsquantity\marg{foobar}\marg{\baseunits}\oarg{\drvdunits} - \oarg{\tradunits} +\begin{tcblisting}{listing only,title=define a physics quantity\\ + \cs{newphysicsquantity}\marg{newname}\marg{\baseunits}\oarg{\drvdunits} + \oarg{\tradunits}} +Here is how spatial displacement is defined internally. +\newphysicsconstant{displacement}{\m}[\m][\m] \end{tcblisting} %\iffalse %</example> @@ -575,61 +562,44 @@ and includes the derived files README % % Using this command causes several things to happen. % \begin{itemize} -% \item A command |\yournewquantity|\marg{magnitude}, where |foobar| is the first +% \item A command |\newname|\marg{magnitude}, where |newname| is the first % argument passed to \\ % |\newphysicsquantity|, is created that takes one mandatory % argument, a numerical magnitude. Subsequent use of your defined scalar quantity -% can be invoked by typing \\ |\yournewquantity|\marg{magnitude} and the units will be +% can be invoked by typing \\ |\newname|\marg{magnitude} and the units will be % typeset according to the options given when \mandi\ was loaded. Note that if the % \drvdunits\ and \tradunits\ forms are not specified, they will be % populated with the \baseunits\ form. -% \item A command |\yournewquantitybaseunit|\marg{magnitude} is created that expresses +% \item A command |\newnamebaseunit|\marg{magnitude} is created that expresses % the quantity and its units in \baseunits\ form. -% \item A command |\yournewquantitydrvdunit|\marg{magnitude} is created that expresses +% \item A command |\newnamedrvdunit|\marg{magnitude} is created that expresses % the quantity and its units in \drvdunits\ form. This command is created whether % or not the first optional argument is provided. -% \item A command |\yournewquantitytradunit|\marg{magnitude} is created that +% \item A command |\newnametradunit|\marg{magnitude} is created that % expresses the quantity and its units in \tradunits\ form. This command is % created whether or not the first optional argument is provided. -% \item A command |\yournewquantityonlybaseunit|\marg{magnitude} is created that +% \item A command |\newnameonlybaseunit|\marg{magnitude} is created that % expresses % \textbf{only} the quantity's units in \baseunits\ form. -% \item A command |\yournewquantityonlydrvdunit|\marg{magnitude} is created that +% \item A command |\newnameonlydrvdunit|\marg{magnitude} is created that % expresses \textbf{only} the quantity's units in \drvdunits\ form. -% \item A command |\yournewquantityonlytradunit|\marg{magnitude} is created that +% \item A command |\newnameonlytradunit|\marg{magnitude} is created that % expresses \textbf{only} the quantity's units in \tradunits\ form. -% \item A command |\yournewquantityvalue|\marg{magnitude} is created that expresses +% \item A command |\newnamevalue|\marg{magnitude} is created that expresses % \textbf{only} the quantity's numerical value. % \end{itemize} % -% The following command defines the quantity |\displacement| and its -% associated commands containing its units. -% \begin{quotation} -% \begin{tabular}{l} -% |\newphysicsquantity{displacement}{\m}[\m][\m]| -% \end{tabular} -% \end{quotation} -% -% You would then invoke this quantity with |\displacement{3}| +% To typeset a numerical displacement, you would merely type |\displacement{3}| % to get \displacement{3} in a calculation. % % \subsubsection{Defining Vector Quantities} % -% Vector quantities are defined exactly like other quantities, except a formatted -% vector is used when invoking the value of that quantity. The following command defines -% a vector |\displacementvector| and its associated commands containing its units. -% -% \begin{quotation} -% \begin{tabular}{l} -% |\newphysicsquantity{displacementvector}{\m}[\m][\m]| -% \end{tabular} -% \end{quotation} -% -% \newphysicsquantity{displacementvector}{\m}[\m][\m] -% -% You would then invoke this quantity with |\displacementvector{\mivector{2,3,-5}}| -% to get \displacementvector{\mivector{2,3,-5}} in a calculation. +% Nothing special is necessary for defining vector quantities, but a formatted +% vector is used when invoking the value of that quantity. Thus, typing +% |\displacement{\mivector{3,2,-1}}| gives \displacement{\mivector{3,2,-1}} precisely +% as expected. % +% \newpage % \subsection{First Semester Physics} % The first semester of \mi\ focuses on mechanics, dynamics, and statistical mechanics. % @@ -726,13 +696,35 @@ and includes the derived files README % % \begin{center} % \begin{tabular}{c c} -% |\charge{\scin[2]{-9}}| & \charge{\scin[2]{-9}} \\ -% |\permittivity{\scin[9]{-12}}| & \permittivity{\scin[9]{-12}} \\ -% |\electricfield{\scin[2]{5}}| & \electricfield{\scin[2]{5}} \\ -% |\electricdipolemom{\scin[3]{-22}}| & \electricdipolemom{\scin[3]{-22}} \\ -% |\permeability{\scin[4\pi]{-7}}| & \permeability{\scin[4\pi]{-7}} \\ -% |\magneticfield{1.25}| & \magneticfield{1.25} \\ -% |\cmagneticfield{1.25}| & \cmagneticfield{1.25} +% |\charge{\scin[2]{-9}}| & \charge{\scin[2]{-9}} \\ +% |\permittivity{\scin[9]{-12}}| & \permittivity{\scin[9]{-12}} \\ +% |\electricfield{\scin[2]{5}}| & \electricfield{\scin[2]{5}} \\ +% |\electricdipolemoment{\scin[3]{-22}}| & \electricdipolemoment{\scin[3]{-22}} \\ +% |\permeability{\scin[4\pi]{-7}}| & \permeability{\scin[4\pi]{-7}} \\ +% |\magneticfield{1.25}| & \magneticfield{1.25} \\ +% |\cmagneticfield{1.25}| & \cmagneticfield{1.25} \\ +% |\linearchargedensity{1.25}| & \linearchargedensity{1.25} \\ +% |\areachargedensity{1.25}| & \areachargedensity{1.25} \\ +% |\volumechargedensity{1.25}| & \volumechargedensity{1.25} \\ +% |\mobility{\scin[4.5]{-3}}| & \mobility{\scin[4.5]{-3}} \\ +% |\numberdensity{\scin[2]{18}}| & \numberdensity{\scin[2]{18}} \\ +% |\polarizability{\scin[1.96]{-40}}| & \polarizability{\scin[1.96]{-40}} \\ +% |\electricpotential{1.5}| & \electricpotential{1.5} \\ +% |\emf{1.5}| & \emf{1.5} \\ +% |\dielectricconstant{1.5}| & \dielectricconstant{1.5} \\ +% |\indexofrefraction{1.5}| & \indexofrefraction{1.5} \\ +% |\relativepermittivity{0.9}| & \relativepermittivity{0.9} \\ +% |\relativepermeability{0.9}| & \relativepermeability{0.9} \\ +% |\energydensity{1.25}| & \energydensity{1.25} \\ +% |\electroncurrent{\scin[2]{18}}| & \electroncurrent{\scin[2]{18}} \\ +% |\conventionalcurrent{0.003}| & \conventionalcurrent{0.003} \\ +% |\magneticdipolemoment{1.25}| & \magneticdipolemoment{1.25} \\ +% |\currentdensity{1.25}| & \currentdensity{1.25} \\ +% |\capacitance{1.00}| & \capacitance{1.00} \\ +% |\conductivity{1.25}| & \conductivity{1.25} \\ +% |\resistivity{1.25}| & \resistivity{1.25} \\ +% |\resistance{\scin[1]{6}}| & \resistance{\scin[1]{6}} \\ +% |\conductance{1.25}| & \conductance{1.25} % \end{tabular} % \end{center} % @@ -1917,7 +1909,7 @@ and includes the derived files README %<*example> %\fi \begin{tcblisting}{listing only,title=define a physical constant\\ - \cs{newphysicsconstant}\marg{symbol}\marg{value}\marg{foobar}\marg{\baseunits} + \cs{newphysicsconstant}\marg{newname}\marg{symbol}\marg{value}\marg{\baseunits} \oarg{\drvdunits}\oarg{\tradunits}} Here is how \oofpez (the Coulomb constant) is defined internally. \newphysicsconstant{oofpez} @@ -1933,23 +1925,23 @@ Here is how \oofpez (the Coulomb constant) is defined internally. % % Using this command causes several things to happen. % \begin{itemize} -% \item A command |\physconstantmathsymbol| is created that expresses +% \item A command |\newname| is created and contains the constant and units +% typeset according to the options given when \mandi\ was loaded. +% \item A command |\newnamemathsymbol| is created that expresses % \textbf{only} the constant's mathematical symbol. -% \item A command |\physconstantvalue| is created that expresses +% \item A command |\newnamevalue| is created that expresses % \textbf{only} the constant's numerical value. -% \item A command |\physconstant| is created and contains the constant and units -% typeset according to the options given when \mandi\ was loaded. -% \item A command |\physconstantbaseunit| is created that expresses +% \item A command |\newnamebaseunit| is created that expresses % the constant and its units in \baseunits\ form. -% \item A command |\physconstantdrvdunit| is created that expresses +% \item A command |\newnamedrvdunit| is created that expresses % the constant and its units in \drvdunits\ form. -% \item A command |\physconstanttradunit| is created that +% \item A command |\newnametradunit| is created that % expresses the constant and its units in \tradunits\ form. -% \item A command |\physconstantonlybaseunit| is created that expresses +% \item A command |\newnameonlybaseunit| is created that expresses % \textbf{only} the constant's units in \baseunits\ form. -% \item A command |\physconstantonlydrvdunit| is created that +% \item A command |\newnameonlydrvdunit| is created that % expresses \textbf{only} the constant's units in \drvdunits\ form. -% \item A command |\physconstantonlytradunit| is created that +% \item A command |\newnameonlytradunit| is created that % expresses \textbf{only} the constant's units in \tradunits\ form. % \end{itemize} % None of these commands takes any arguments. @@ -2801,15 +2793,18 @@ Here is how \oofpez (the Coulomb constant) is defined internally. %</example> %\fi % +% \DescribeMacro{\gradient} % \DescribeMacro{\divergence} % \DescribeMacro{\curl} +% \DescribeMacro{\laplacian} +% \DescribeMacro{\dalembertian} %\iffalse %<*example> %\fi -\begin{tcblisting}{title=divergence and curl of a quantity (you must explicitly - provide an arrow with \cs{vect} if you want one)\\ - \cs{divergence}\marg{vector} and \cs{curl}\marg{vector}} -\divergence{\vect{E}} and \curl{\vect{E}} +\begin{tcblisting}{title=vector operators\\ + \cs{gradiant} and\cs{divergence} and \cs{curl} and \cs{laplacian} and \cs{dalembertian}} +\gradient\(f\) and \divergence\vect{E} and \curl\vect{E} and \laplacian\(f\) + and \dalembertian\(F\) \end{tcblisting} %\iffalse %</example> @@ -2924,6 +2919,7 @@ Here is how \oofpez (the Coulomb constant) is defined internally. %</example> %\fi % +% \newpage % \subsection{Other Useful Commands} % % \DescribeMacro{\asin} @@ -2944,7 +2940,6 @@ Here is how \oofpez (the Coulomb constant) is defined internally. %</example> %\fi % -% \newpage % \DescribeMacro{\sech} % \DescribeMacro{\csch} % \DescribeMacro{\asinh} @@ -2991,6 +2986,7 @@ Here is how \oofpez (the Coulomb constant) is defined internally. %</example> %\fi % +% \newpage % \DescribeMacro{\eV} % \DescribeMacro{\ev} %\iffalse @@ -3004,18 +3000,6 @@ Here is how \oofpez (the Coulomb constant) is defined internally. %</example> %\fi % -% \DescribeMacro{\emf} -%\iffalse -%<*example> -%\fi -\begin{tcblisting}{title=symbol for electromotive force\\ - \cs{emf}} -\emf -\end{tcblisting} -%\iffalse -%</example> -%\fi -% % \newpage % \DescribeMacro{\logb} %\iffalse @@ -4533,7 +4517,7 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] % \fi % Note the packages that must be present. % \begin{macrocode} -\RequirePackage[intlimits]{amsmath} +\RequirePackage{amsmath} \RequirePackage{amssymb} \RequirePackage{bigints} \RequirePackage{cancel} @@ -4541,8 +4525,8 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] \RequirePackage[dvipsnames]{xcolor} \RequirePackage{environ} \RequirePackage{etoolbox} -\RequirePackage{extarrows} \RequirePackage{filehook} +\RequirePackage{extarrows} \RequirePackage[T1]{fontenc} \RequirePackage{graphicx} \RequirePackage{epstopdf} @@ -4550,7 +4534,6 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] \RequirePackage{letltxmacro} \RequirePackage{listings} \RequirePackage[framemethod=TikZ]{mdframed} -\RequirePackage[amssymb,cdot,derivedinbase,derived,thickqspace]{SIunits} \RequirePackage{suffix} \RequirePackage{xargs} \RequirePackage{xparse} @@ -4581,27 +4564,78 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] % \end{macrocode} % % \newpage -% \noindent This block of code corrects conflicts with SIunits. +% \noindent This block of code fixes a conflict with the amssymb package. % \begin{macrocode} -\AtBeginOfPackageFile*{SIunits}{% - \csundef{power} +\@ifpackageloaded{amssymb}{% \csundef{square} - \newcommand*{\square}[1]{\ensuremath{\mathrm{#1}^{2}}} - \renewcommand*{\squared}{\ensuremath{^{\mathrm{2}}}} - \renewcommand*{\cubic}[1]{\ensuremath{\mathrm{#1}^{3}}} - \renewcommand*{\cubed}{\ensuremath{^{\mathrm{3}}}} - \renewcommand*{\fourth}[1]{\ensuremath{\mathrm{#1}^{4}}} - \renewcommand*{\reciprocal}[1]{\ensuremath{\mathrm{#1}^{\SIminus1}}} - \renewcommand*{\rp}{\ensuremath{^{\mathrm{\SIminus1}}}} - \renewcommand*{\rpsquare}[1]{\ensuremath{\mathrm{#1}^{\SIminus2}}} - \renewcommand*{\rpsquared}{\ensuremath{^{\mathrm{\SIminus2}}}} - \renewcommand*{\rpcubic}[1]{\ensuremath{\mathrm{#1}^{\SIminus3}}} - \renewcommand*{\rpcubed}{\ensuremath{^{\mathrm{\SIminus3}}}} - \renewcommand*{\rpfourth}[1]{\ensuremath{\mathrm{#1}^{\SIminus4}}} - \typeout{mandi: SIunits conflicts fixed, but don't use \protect\square\space.} + \typeout{mandi: Package amssymb detected. Its \protect\square\space has been redefined.} +}{% + \typeout{mandi: Package amssymb not detected.} }% % \end{macrocode} % +% \noindent This block of code defines unit names and symbols. +% \begin{macrocode} +\newcommand{\per}{\ensuremath{/}} +\newcommand{\usk}{\ensuremath{\cdot}} +\newcommand{\unit}[2]{\ensuremath{{#1}\,{#2}}} +\newcommand{\ampere}{\ensuremath{\mathrm{A}}} +\newcommand{\arcminute}{\ensuremath{'}} +\newcommand{\arcsecond}{\ensuremath{''}} +\newcommand{\atomicmassunit}{\ensuremath{\mathrm{u}}} +\newcommand{\candela}{\ensuremath{\mathrm{cd}}} +\newcommand{\coulomb}{\ensuremath{\mathrm{C}}} +\newcommand{\degree}{\ensuremath{^{\circ}}} +\newcommand{\electronvolt}{\ensuremath{\mathrm{eV}}} +\newcommand{\farad}{\ensuremath{\mathrm{F}}} +\newcommand{\henry}{\ensuremath{\mathrm{H}}} +\newcommand{\hertz}{\ensuremath{\mathrm{Hz}}} +\newcommand{\hour}{\ensuremath{\mathrm{h}}} +\newcommand{\joule}{\ensuremath{\mathrm{J}}} +\newcommand{\kelvin}{\ensuremath{\mathrm{K}}} +\newcommand{\kilogram}{\ensuremath{\mathrm{kg}}} +\newcommand{\metre}{\ensuremath{\mathrm{m}}} +\newcommand{\minute}{\ensuremath{\mathrm{min}}} +\newcommand{\mole}{\ensuremath{\mathrm{mol}}} +\newcommand{\newton}{\ensuremath{\mathrm{N}}} +\newcommand{\ohm}{\ensuremath{\Omega}} +\newcommand{\pascal}{\ensuremath{\mathrm{Pa}}} +\newcommand{\radian}{\ensuremath{\mathrm{rad}}} +\newcommand{\second}{\ensuremath{\mathrm{s}}} +\newcommand{\siemens}{\ensuremath{\mathrm{S}}} +\newcommand{\steradian}{\ensuremath{\mathrm{sr}}} +\newcommand{\tesla}{\ensuremath{\mathrm{T}}} +\newcommand{\volt}{\ensuremath{\mathrm{V}}} +\newcommand{\watt}{\ensuremath{\mathrm{W}}} +\newcommand{\weber}{\ensuremath{\mathrm{Wb}}} +\newcommand{\C}{\coulomb} +\newcommand{\F}{\farad} +%\H is already defined as a LaTeX accent +\newcommand{\J}{\joule} +\newcommand{\N}{\newton} +\newcommand{\Pa}{\pascal} +\newcommand{\rad}{\radian} +\newcommand{\sr}{\steradian} +%\S is already defined as a LaTeX symbol +\newcommand{\T}{\tesla} +\newcommand{\V}{\volt} +\newcommand{\W}{\watt} +\newcommand{\square}[1]{\ensuremath{\mathrm{#1}^{2}}} % prefix 2 +\newcommand*{\cubic}[1]{\ensuremath{\mathrm{#1}^{3}}} % prefix 3 +\newcommand*{\quartic}[1]{\ensuremath{\mathrm{#1}^{4}}} % prefix 4 +\newcommand*{\reciprocal}[1]{\ensuremath{\mathrm{#1}^{-1}}} % prefix -1 +\newcommand*{\reciprocalsquare}[1]{\ensuremath{\mathrm{#1}^{-2}}} % prefix -2 +\newcommand*{\reciprocalcubic}[1]{\ensuremath{\mathrm{#1}^{-3}}} % prefix -3 +\newcommand*{\reciprocalquartic}[1]{\ensuremath{\mathrm{#1}^{-4}}} % prefix -4 +\newcommand*{\squared}{\ensuremath{^{\mathrm{2}}}} % postfix 2 +\newcommand*{\cubed}{\ensuremath{^{\mathrm{3}}}} % postfix 3 +\newcommand*{\quarted}{\ensuremath{^{\mathrm{4}}}} % postfix 4 +\newcommand*{\reciprocaled}{\ensuremath{^{\mathrm{-1}}}} % postfix -1 +\newcommand*{\reciprocalsquared}{\ensuremath{^{\mathrm{-2}}}} % postfix -2 +\newcommand*{\reciprocalcubed}{\ensuremath{^{\mathrm{-3}}}} % postfix -3 +\newcommand*{\reciprocalquarted}{\ensuremath{^{\mathrm{-4}}}} % postfix -4 +% \end{macrocode} +% % \begin{macro}{\newphysicsquantity} % \begin{macro}{\newphysicsconstant} % \begin{macro}{\hereusebaseunit} @@ -4823,13 +4857,13 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] % % \begin{macro}{\planeangle} % \begin{macrocode} -\newphysicsquantity{planeangle}{\m\usk\reciprocal\m}[\radian][\radian] +\newphysicsquantity{planeangle}{\m\usk\reciprocal\m}[\rad][\rad] % \end{macrocode} % \end{macro} % % \begin{macro}{\solidangle} % \begin{macrocode} -\newphysicsquantity{solidangle}{\m\squared\usk\rpsquare\m}[\steradian][\steradian] +\newphysicsquantity{solidangle}{\m\squared\usk\reciprocalsquare\m}[\sr][\sr] % \end{macrocode} % \end{macro} % @@ -4859,7 +4893,7 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] % % \begin{macro}{\inAU} % \begin{macrocode} -\newcommand{\inAU}[1]{\ensuremath{\unit{#1}{AU}}} +\newcommand{\inAU}[1]{\ensuremath{\unit{#1}{\mathrm{AU}}}} % \end{macrocode} % \end{macro} % @@ -4877,7 +4911,7 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] % % \begin{macro}{\acceleration} % \begin{macrocode} -\newphysicsquantity{acceleration}{\m\usk\s\rpsquared}[\newton\per\kg][\m\per\s\squared] +\newphysicsquantity{acceleration}{\m\usk\s\reciprocalsquared}[\N\per\kg][\m\per\s\squared] % \end{macrocode} % \end{macro} % @@ -4889,25 +4923,25 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] % % \begin{macro}{\momentum} % \begin{macrocode} -\newphysicsquantity{momentum}{\m\usk\kg\usk\reciprocal\s}[\newton\usk\s][\kg\usk\m\per\s] +\newphysicsquantity{momentum}{\m\usk\kg\usk\reciprocal\s}[\N\usk\s][\kg\usk\m\per\s] % \end{macrocode} % \end{macro} % % \begin{macro}{\impulse} % \begin{macrocode} -\newphysicsquantity{impulse}{\m\usk\kg\usk\reciprocal\s}[\newton\usk\s][\kg\usk\m\per\s] +\newphysicsquantity{impulse}{\m\usk\kg\usk\reciprocal\s}[\N\usk\s][\kg\usk\m\per\s] % \end{macrocode} % \end{macro} % % \begin{macro}{\force} % \begin{macrocode} -\newphysicsquantity{force}{\m\usk\kg\usk\s\rpsquared}[\newton][\newton] +\newphysicsquantity{force}{\m\usk\kg\usk\s\reciprocalsquared}[\N][\N] % \end{macrocode} % \end{macro} % % \begin{macro}{\springstiffness} % \begin{macrocode} -\newphysicsquantity{springstiffness}{\kg\usk\s\rpsquared}[\newton\per\m][\newton\per\m] +\newphysicsquantity{springstiffness}{\kg\usk\s\reciprocalsquared}[\N\per\m][\N\per\m] % \end{macrocode} % \end{macro} % @@ -4937,84 +4971,83 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] % % \begin{macro}{\areamassdensity} % \begin{macrocode} -\newphysicsquantity{areamassdensity}{\m\rpsquared\usk\kg}[\kg\per\m\squared] +\newphysicsquantity{areamassdensity}{\m\reciprocalsquared\usk\kg}[\kg\per\m\squared] [\kg\per\m\squared] % \end{macrocode} % \end{macro} % % \begin{macro}{\volumemassdensity} % \begin{macrocode} -\newphysicsquantity{volumemassdensity}{\m\rpcubed\usk\kg}[\kg\per\m\cubed] +\newphysicsquantity{volumemassdensity}{\m\reciprocalcubed\usk\kg}[\kg\per\m\cubed] [\kg\per\m\cubed] % \end{macrocode} % \end{macro} % % \begin{macro}{\youngsmodulus} % \begin{macrocode} -\newphysicsquantity{youngsmodulus}{\reciprocal\m\usk\kg\usk\s\rpsquared} -[\newton\per\m\squared][\pascal] +\newphysicsquantity{youngsmodulus}{\reciprocal\m\usk\kg\usk\s\reciprocalsquared} +[\N\per\m\squared][\Pa] % \end{macrocode} % \end{macro} % % \begin{macro}{\work} % \begin{macrocode} -\newphysicsquantity{work}{\m\squared\usk\kilogram\usk\s\rpsquared}[\joule] -[\newton\usk\m] +\newphysicsquantity{work}{\m\squared\usk\kg\usk\s\reciprocalsquared}[\J] +[\N\usk\m] % \end{macrocode} % \end{macro} % % \begin{macro}{\energy} % \begin{macrocode} -\newphysicsquantity{energy}{\m\squared\usk\kilogram\usk\s\rpsquared}[\joule] -[\newton\usk\m] +\newphysicsquantity{energy}{\m\squared\usk\kg\usk\s\reciprocalsquared}[\J] +[\N\usk\m] % \end{macrocode} % \end{macro} % % \begin{macro}{\power} % \begin{macrocode} -\newphysicsquantity{power}{\m\squared\usk\kg\usk\s\rpcubed}[\watt][\joule\per\s] +\newphysicsquantity{power}{\m\squared\usk\kg\usk\s\reciprocalcubed}[\W][\J\per\s] % \end{macrocode} % \end{macro} % % \begin{macro}{\angularvelocity} % \begin{macrocode} -\newphysicsquantity{angularvelocity}{\radian\usk\reciprocal\s}[\radian\per\s] -[\radian\per\s] +\newphysicsquantity{angularvelocity}{\rad\usk\reciprocal\s}[\rad\per\s][\rad\per\s] % \end{macrocode} % \end{macro} % % \begin{macro}{\angularacceleration} % \begin{macrocode} -\newphysicsquantity{angularacceleration}{\radian\usk\s\rpsquared}[\radian\per\s\squared] -[\radian\per\s\squared] +\newphysicsquantity{angularacceleration}{\rad\usk\s\reciprocalsquared}[\rad\per\s\squared] +[\rad\per\s\squared] % \end{macrocode} % \end{macro} % % \begin{macro}{\angularmomentum} % \begin{macrocode} -\newphysicsquantity{angularmomentum}{\m\squared\usk\kg\usk\reciprocal\s}[\joule\usk\s] +\newphysicsquantity{angularmomentum}{\m\squared\usk\kg\usk\reciprocal\s}[\J\usk\s] [\kg\usk\m\squared\per\s] % \end{macrocode} % \end{macro} % % \begin{macro}{\momentofinertia} % \begin{macrocode} -\newphysicsquantity{momentofinertia}{\m\squared\usk\kg}[\joule\usk\s\squared] +\newphysicsquantity{momentofinertia}{\m\squared\usk\kg}[\J\usk\s\squared] [\kg\usk\m\squared] % \end{macrocode} % \end{macro} % % \begin{macro}{\torque} % \begin{macrocode} -\newphysicsquantity{torque}{\m\squared\usk\kg\usk\s\rpsquared}[\joule\per\radian] -[\newton\usk\m] +\newphysicsquantity{torque}{\m\squared\usk\kg\usk\s\reciprocalsquared}[\J\per\rad] +[\N\usk\m] % \end{macrocode} % \end{macro} % % \begin{macro}{\entropy} % \begin{macrocode} -\newphysicsquantity{entropy}{\m\squared\usk\kilogram\usk\s\rpsquared\usk\reciprocal\K} -[\joule\per\K][\joule\per\K] +\newphysicsquantity{entropy}{\m\squared\usk\kg\usk\s\reciprocalsquared\usk\reciprocal\K} +[\J\per\K][\J\per\K] % \end{macrocode} % \end{macro} % @@ -5038,55 +5071,203 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] % % \begin{macro}{\angularfrequency} % \begin{macrocode} -\newphysicsquantity{angularfrequency}{\radian\usk\reciprocal\s}[\radian\per\s] -[\radian\per\s] +\newphysicsquantity{angularfrequency}{\rad\usk\reciprocal\s}[\rad\per\s][\rad\per\s] % \end{macrocode} % \end{macro} % % \begin{macro}{\charge} % \begin{macrocode} -\newphysicsquantity{charge}{\A\usk\s}[\coulomb][\coulomb] +\newphysicsquantity{charge}{\A\usk\s}[\C][\C] % \end{macrocode} % \end{macro} % % \begin{macro}{\permittivity} % \begin{macrocode} -\newphysicsquantity{permittivity}{\m\rpcubed\usk\reciprocal\kg\usk\s^{4}\usk\A\squared} -[\farad\per\m][\coulomb\squared\per\newton\usk\m\squared] +\newphysicsquantity{permittivity}{\m\reciprocalcubed\usk\reciprocal\kg\usk\s + \reciprocalquarted\usk\A\squared}[\F\per\m][\C\squared\per\N\usk\m\squared] % \end{macrocode} % \end{macro} % % \begin{macro}{\permeability} % \begin{macrocode} -\newphysicsquantity{permeability}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared} -[\henry\per\m][\tesla\usk\m\per\A] +\newphysicsquantity{permeability}{\m\usk\kg\usk\s\reciprocalsquared\usk\A + \reciprocalsquared}[\henry\per\m][\T\usk\m\per\A] % \end{macrocode} % \end{macro} % % \begin{macro}{\electricfield} % \begin{macrocode} -\newphysicsquantity{electricfield}{\m\usk\kg\usk\s\rpcubed\usk\reciprocal\A}[\volt\per\m] -[\newton\per\coulomb] +\newphysicsquantity{electricfield}{\m\usk\kg\usk\s\reciprocalcubed\usk\reciprocal\A} +[\V\per\m][\N\per\C] % \end{macrocode} % \end{macro} % -% \begin{macro}{\electricdipolemom} +% \begin{macro}{\electricdipolemoment} % \begin{macrocode} -\newphysicsquantity{electricdipolemom}{\m\usk\s\usk\A}[\coulomb\usk\m][\coulomb\usk\m] +\newphysicsquantity{electricdipolemoment}{\m\usk\s\usk\A}[\C\usk\m][\C\usk\m] % \end{macrocode} % \end{macro} % % \begin{macro}{\magneticfield} % \begin{macrocode} -\newphysicsquantity{magneticfield}{\kg\usk\s\rpsquared\usk\reciprocal\A}[\tesla] -[\newton\per\coulomb\usk(\m\per\s)] +\newphysicsquantity{magneticfield}{\kg\usk\s\reciprocalsquared\usk\reciprocal\A}[\T] +[\N\per\C\usk(\m\per\s)] % \end{macrocode} % \end{macro} % % \begin{macro}{\cmagneticfield} % \begin{macrocode} -\newphysicsquantity{cmagneticfield}{\m\usk\kg\usk\s\rpcubed\usk\reciprocal\A}[\volt\per\m] -[\newton\per\coulomb] +\newphysicsquantity{cmagneticfield}{\m\usk\kg\usk\s\reciprocalcubed\usk\reciprocal\A} +[\V\per\m][\N\per\C] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\linearchargedensity} +% \begin{macrocode} +\newphysicsquantity{linearchargedensity}{\reciprocal\m\usk\s\usk\A}[\C\per\m][\C\per\m] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\areachargedensity} +% \begin{macrocode} +\newphysicsquantity{areachargedensity}{\reciprocalsquare\m\usk\s\usk\A} +[\C\per\square\m][\C\per\square\m] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\volumechargedensity} +% \begin{macrocode} +\newphysicsquantity{volumechargedensity}{\reciprocalcubic\m\usk\s\usk\A} +[\C\per\cubic\m][\C\per\cubic\m] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\mobility} +% \begin{macrocode} +\newphysicsquantity{mobility} +{\m\squared\usk\kg\usk\s\reciprocalquarted\usk\reciprocal\A}[\m\squared\per\volt\usk\s] +[(\m\per\s)\per(\N\per\C)] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\numberdensity} +% \begin{macrocode} +\newphysicsquantity{numberdensity}{\reciprocalcubic\m}[\per\cubic\m][\per\cubic\m] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\polarizability} +% \begin{macrocode} +\newphysicsquantity{polarizability}{\reciprocal\kg\usk\s\quarted\usk\square\A} +[\C\usk\square\m\per\V][\C\usk\m\per(\N\per\C)] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\electricpotential} +% \begin{macrocode} +\newphysicsquantity{electricpotential} +{\square\m\usk\kg\usk\reciprocalcubic\s\usk\reciprocal\A}[\J\per\C][\V] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\emf} +% \begin{macrocode} +\newphysicsquantity{emf}{\square\m\usk\kg\usk\reciprocalcubic\s\usk\reciprocal\A} +[\J\per\C][\V] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\dielectricconstant} +% \begin{macrocode} +\newphysicsquantity{dielectricconstant}{}[][] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\indexofrefraction} +% \begin{macrocode} +\newphysicsquantity{indexofrefraction}{}[][] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\relativepermittivity} +% \begin{macrocode} +\newphysicsquantity{relativepermittivity}{}[][] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\relativepermeability} +% \begin{macrocode} +\newphysicsquantity{relativepermeability}{}[][] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\energydensity} +% \begin{macrocode} +\newphysicsquantity{energydensity}{\m\reciprocaled\usk\kg\usk\reciprocalsquare\s} +[\J\per\cubic\m][\J\per\cubic\m] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\electroncurrent} +% \begin{macrocode} +\newphysicsquantity{electroncurrent}{\reciprocal\s} +[\ensuremath{\mathrm{e}}\per\s][\ensuremath{\mathrm{e}}\per\s] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\conventionalcurrent} +% \begin{macrocode} +\newphysicsquantity{conventionalcurrent}{\A}[\C\per\s][\A] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\magneticdipolemoment} +% \begin{macrocode} +\newphysicsquantity{magneticdipolemoment}{\square\m\usk\A}[\J\per\T][\A\usk\square\m] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\currentdensity} +% \begin{macrocode} +\newphysicsquantity{currentdensity}{\reciprocalsquare\m\usk\A}[\C\usk\s\per\square\m] +[\A\per\square\m] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\capacitance} +% \begin{macrocode} +\newphysicsquantity{capacitance} +{\reciprocalsquare\m\usk\reciprocal\kg\usk\quartic\s\usk\square\A}[\C\per\V][\F] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\conductivity} +% \begin{macrocode} +\newphysicsquantity{conductivity} +{\reciprocalcubic\m\usk\reciprocal\kg\usk\cubic\s\usk\square\A}[\siemens\per\m] +[\A\per\V\usk\m] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\resistivity} +% \begin{macrocode} +\newphysicsquantity{resistivity} +{\cubic\m\usk\kg\usk\reciprocalcubic\s\usk\reciprocalsquare\A}[\m\per\siemens] +[\ohm\usk\m] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\resistance} +% \begin{macrocode} +\newphysicsquantity{resistance} +{\square\m\usk\kg\usk\reciprocalcubic\s\usk\reciprocalsquare\A}[\V\per\A][\ohm] +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\conductance} +% \begin{macrocode} +\newphysicsquantity{conductance} +{\reciprocalsquare\m\usk\reciprocal\kg\usk\cubic\s\usk\square\A}[\A\per\V][\siemens] % \end{macrocode} % \end{macro} % @@ -6331,8 +6512,8 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] % Coulomb constant % \begin{macrocode} \newphysicsconstant{oofpez}{\ensuremath{\frac{1}{\phantom{_o}4\pi\ssub{\epsilon}{o}}}} -{\scin[9]{9}}{\ensuremath{\m\cubed\usk\kg\usk\s^{-4}\usk\A\rpsquared}}[\m\per\farad] -[\newton\usk\m\squared\per\coulomb\squared] +{\scin[9]{9}}{\ensuremath{\m\cubed\usk\kg\usk\reciprocalquartic\s\usk\\reciprocalsquared}} +[\m\per\farad][\newton\usk\m\squared\per\coulomb\squared] % \end{macrocode} % \end{macro} % @@ -6340,8 +6521,8 @@ neque, id pulvinar odio lorem non turpis. Nullam sit amet enim.] % Coulomb constant (alternate) % \begin{macrocode} \newphysicsconstant{oofpezcs}{\ensuremath{\frac{1}{\phantom{_o}4\pi\ssub{\epsilon}{o} -c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\usk\m -\squared][\newton\usk\s\squared\per\coulomb\squared] +c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\reciprocalsquared\usk\A\reciprocalsquared} +[\T\usk\m\squared][\N\usk\s\squared\per\C\squared] % \end{macrocode} % \end{macro} % @@ -6349,8 +6530,8 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % vacuum permittivity % \begin{macrocode} \newphysicsconstant{epsz}{\ensuremath{\ssub{\epsilon}{o}}}{\scin[9]{-12}} -{\m\rpcubed\usk\reciprocal\kg\usk\s^{4}\usk\A\squared}[\farad\per\m] -[\coulomb\squared\per\newton\usk\m\squared] +{\m\reciprocalcubed\usk\reciprocal\kg\usk\s\quarted\usk\A\squared}[\F\per\m] +[\C\squared\per\N\usk\m\squared] % \end{macrocode} % \end{macro} % @@ -6358,7 +6539,8 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % Biot-Savart constant % \begin{macrocode} \newphysicsconstant{mzofp}{\ensuremath{\frac{\phantom{_oo}\ssub{\mu}{o}\phantom{_o}} -{4\pi}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\henry\per\m] +{4\pi}}}{\scin{-7}}{\m\usk\kg\usk\s\reciprocalsquared\usk\A\reciprocalsquared} +[\henry\per\m] [\tesla\usk\m\per\A] % \end{macrocode} % \end{macro} @@ -6367,7 +6549,8 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % vacuum permeability % \begin{macrocode} \newphysicsconstant{muz}{\ensuremath{\ssub{\mu}{o}}}{\scin[4\pi]{-7}} -{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\henry\per\m][\tesla\usk\m\per\A] +{\m\usk\kg\usk\s\reciprocalsquared\usk\A\reciprocalsquared}[\henry\per\m] +[\T\usk\m\per\A] % \end{macrocode} % \end{macro} % @@ -6375,7 +6558,7 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % Boltzmann constant % \begin{macrocode} \newphysicsconstant{kboltz}{\ensuremath{\ssub{k}{B}}}{\scin[1.38]{-23}} -{\kg\usk\m\squared\usk\rpsquare\s\usk\reciprocal\K}[\joule\per\K][\joule\per\K] +{\kg\usk\m\squared\usk\reciprocalsquare\s\usk\reciprocal\K}[\joule\per\K][\J\per\K] % \end{macrocode} % \end{macro} % @@ -6389,8 +6572,9 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % \begin{macro}{\stefan} % Stefan-Boltzmann constant % \begin{macrocode} -\newphysicsconstant{stefan}{\ensuremath{\sigma}}{\scin[5.67]{-8}}{\kg\usk\s\rpcubed\usk -\K^{-4}}[\watt\per\m\squared\usk\K^4][\watt\per\m\squared\usk\K^4] +\newphysicsconstant{stefan}{\ensuremath{\sigma}}{\scin[5.67]{-8}} +{\kg\usk\s\reciprocalcubed\usk\K\reciprocalquarted}[\W\per\m\squared\usk\K^4] +[\W\per\m\squared\usk\K\quarted] % \end{macrocode} % \end{macro} % @@ -6398,7 +6582,7 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % Planck constant % \begin{macrocode} \newphysicsconstant{planck}{\ensuremath{h}}{\scin[6.62]{-34}} -{\m\squared\usk\kg\usk\reciprocal\s}[\joule\usk\s][\kg\usk\m\squared\per\s] +{\m\squared\usk\kg\usk\reciprocal\s}[\J\usk\s][\kg\usk\m\squared\per\s] % \end{macrocode} % \end{macro} % @@ -6427,8 +6611,8 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % \begin{macro}{\Navogadro} % Avogadro constant % \begin{macrocode} -\newphysicsconstant{Navogadro}{\ensuremath{\ssub{N}{A}}}{\scin[6.022]{23}}{\reciprocal -\mol}[\reciprocal\mol][\reciprocal\mol] +\newphysicsconstant{Navogadro}{\ensuremath{\ssub{N}{A}}}{\scin[6.022]{23}} +{\reciprocal\mol}[\reciprocal\mol][\reciprocal\mol] % \end{macrocode} % \end{macro} % @@ -6436,16 +6620,16 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % universal gravitational constant % \begin{macrocode} \newphysicsconstant{bigG}{\ensuremath{G}}{\scin[6.67]{-11}} -{\m\cubed\usk\reciprocal\kg\usk\s\rpsquared}[\joule\usk\m\per\kg\squared] -[\newton\usk\m\squared\per\kg\squared] +{\m\cubed\usk\reciprocal\kg\usk\s\reciprocalsquared}[\J\usk\m\per\kg\squared] +[\N\usk\m\squared\per\kg\squared] % \end{macrocode} % \end{macro} % % \begin{macro}{\littleg} % gravitational field strength at Earth's surface % \begin{macrocode} -\newphysicsconstant{littleg}{\ensuremath{g}}{9.80}{\m\usk\s\rpsquared}[\newton\per\kg] -[\m\per\s\squared] +\newphysicsconstant{littleg}{\ensuremath{g}}{9.80}{\m\usk\s\reciprocalsquared} +[\N\per\kg][\m\per\s\squared] % \end{macrocode} % \end{macro} % @@ -6460,7 +6644,7 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % \begin{macro}{\clightnfn} % light's speed (alternate) % \begin{macrocode} -\newcommand{\clightnfn}{\ensuremath{\unit{1}{ft\per\nano\s}}} +\newcommand{\clightnfn}{\ensuremath{\unit{1}{\mathrm{ft}\per\mathrm{n}\s}}} % \end{macrocode} % \end{macro} % @@ -6474,8 +6658,8 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % \begin{macro}{\Mproton} % proton's mass % \begin{macrocode} -\newphysicsconstant{Mproton}{\ensuremath{\ssub{m}{proton}}}{\scin[1.673]{-27}}{\kg} -[\kg][\kg] +\newphysicsconstant{Mproton}{\ensuremath{\ssub{m}{proton}}}{\scin[1.673]{-27}} +{\kg}[\kg][\kg] % \end{macrocode} % \end{macro} % @@ -6506,8 +6690,7 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % \begin{macro}{\echarge} % charge quantum % \begin{macrocode} -\newphysicsconstant{echarge}{\ensuremath{e}}{\scin[1.602]{-19}}{\A\usk\s}[\coulomb] -[\coulomb] +\newphysicsconstant{echarge}{\ensuremath{e}}{\scin[1.602]{-19}}{\A\usk\s}[\C][\C] % \end{macrocode} % \end{macro} % @@ -6516,9 +6699,9 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % electron's charge % \begin{macrocode} \newphysicsconstant{Qelectron}{\ensuremath{\ssub{Q}{electron}}}{-\echargevalue} -{\A\usk\s}[\coulomb][\coulomb] +{\A\usk\s}[\C][\C] \newphysicsconstant{qelectron}{\ensuremath{\ssub{q}{electron}}}{-\echargevalue} -{\A\usk\s}[\coulomb][\coulomb] +{\A\usk\s}[\C][\C] % \end{macrocode} % \end{macro} % \end{macro} @@ -6528,9 +6711,9 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % proton's charge % \begin{macrocode} \newphysicsconstant{Qproton}{\ensuremath{\ssub{Q}{proton}}}{+\echargevalue} -{\A\usk\s}[\coulomb][\coulomb] +{\A\usk\s}[\C][\C] \newphysicsconstant{qproton}{\ensuremath{\ssub{q}{proton}}}{+\echargevalue} -{\A\usk\s}[\coulomb][\coulomb] +{\A\usk\s}[\C][\C] % \end{macrocode} % \end{macro} % \end{macro} @@ -6626,7 +6809,7 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % Sun's luminosity % \begin{macrocode} \newphysicsconstant{LSun}{\ensuremath{\ssub{L}{Sun}}}{\scin[4]{26}} - {\m\squared\usk\kg\usk\s\rpcubed}[\watt][\joule\per\s] + {\m\squared\usk\kg\usk\s\reciprocalcubed}[\W][\J\per\s] % \end{macrocode} % \end{macro} % @@ -6824,7 +7007,11 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ % % \begin{macro}{\evalat} % \begin{macrocode} -\newcommand{\evalat}[2]{\ensuremath{\Bigg.{#1}\Bigg\rvert_{#2}}} +\@ifpackageloaded{physymb}{% + \typeout{mandi: Package physymb detected. Its commands will be used.} +}{% + \newcommand{\evalat}[2]{\ensuremath{\Bigg.{#1}\Bigg\rvert_{#2}}} +}% % \end{macrocode} % \end{macro} % @@ -6995,15 +7182,28 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld % \end{macro} % \end{macro} % +% \begin{macro}{\gradient} % \begin{macro}{\divergence} % \begin{macro}{\curl} +% \begin{macro}{\laplacian} +% \begin{macro}{\dalembertian} % user must specify |\vect{}| around the argument to get arrows % \begin{macrocode} -\newcommand{\divergence}[1]{\ensuremath{\vectdotvect{\nabla}{#1}}} -\newcommand{\curl}[1]{\ensuremath{\nabla\times{#1}}} +\@ifpackageloaded{physymb}{% + \typeout{mandi: Package physymb detected. Its commands will be used.} +}{% + \newcommand{\gradient}{\ensuremath{\nabla}} + \newcommand{\divergence}{\ensuremath{\nabla\bullet}} + \newcommand{\curl}{\ensuremath{\nabla\times}} + \newcommand{\laplacian}{\ensuremath{\msup{\nabla}{2}}} + \newcommand{\dalembertian}{\ensuremath{\Box}} +}% % \end{macrocode} % \end{macro} % \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} % % \begin{macro}{\diracdelta} % \begin{macrocode} @@ -7012,94 +7212,56 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld % \end{macro} % % \begin{macro}{\asin} -% \begin{macrocode} -\DeclareMathOperator{\asin}{\sin^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\acos} -% \begin{macrocode} -\DeclareMathOperator{\acos}{\cos^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\atan} -% \begin{macrocode} -\DeclareMathOperator{\atan}{\tan^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\asec} -% \begin{macrocode} -\DeclareMathOperator{\asec}{\sec^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\acsc} -% \begin{macrocode} -\DeclareMathOperator{\acsc}{\csc^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\acot} -% \begin{macrocode} -\DeclareMathOperator{\acot}{\cot^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\sech} -% \begin{macrocode} -\DeclareMathOperator{\sech}{sech} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\csch} -% \begin{macrocode} -\DeclareMathOperator{\csch}{csch} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\asinh} -% \begin{macrocode} -\DeclareMathOperator{\asinh}{\sinh^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\acosh} -% \begin{macrocode} -\DeclareMathOperator{\acosh}{\cosh^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\atanh} -% \begin{macrocode} -\DeclareMathOperator{\atanh}{\tanh^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\asech} -% \begin{macrocode} -\DeclareMathOperator{\asech}{\sech^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\acsch} -% \begin{macrocode} -\DeclareMathOperator{\acsch}{\csch^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\acoth} -% \begin{macrocode} -\DeclareMathOperator{\acoth}{\coth^{-1}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\sgn} % \begin{macrocode} -\DeclareMathOperator{\sgn}{sgn} +\@ifpackageloaded{physymb}{% + \typeout{mandi: Package physymb detected. Its commands will be used.} +}{% + \DeclareMathOperator{\asin}{\sin^{-1}} + \DeclareMathOperator{\acos}{\cos^{-1}} + \DeclareMathOperator{\atan}{\tan^{-1}} + \DeclareMathOperator{\asec}{\sec^{-1}} + \DeclareMathOperator{\acsc}{\csc^{-1}} + \DeclareMathOperator{\acot}{\cot^{-1}} + \DeclareMathOperator{\sech}{sech} + \DeclareMathOperator{\csch}{csch} + \DeclareMathOperator{\asinh}{\sinh^{-1}} + \DeclareMathOperator{\acosh}{\cosh^{-1}} + \DeclareMathOperator{\atanh}{\tanh^{-1}} + \DeclareMathOperator{\asech}{\sech^{-1}} + \DeclareMathOperator{\acsch}{\csch^{-1}} + \DeclareMathOperator{\acoth}{\coth^{-1}} + \DeclareMathOperator{\sgn}{sgn} +}% % \end{macrocode} % \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} +% \end{macro} % % \begin{macro}{\dex} % \begin{macrocode} @@ -7116,12 +7278,6 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld % \end{macro} % \end{macro} % -% \begin{macro}{\emf} -% \begin{macrocode} -\newcommand{\emf}{\ensuremath{\mathrm{emf}}} -% \end{macrocode} -% \end{macro} -% % \begin{macro}{\logb} % \begin{macrocode} \newcommand{\logb}[1][\relax]{\ensuremath{\log_{_{#1}}}} @@ -7156,7 +7312,11 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld % % \begin{macro}{\abs} % \begin{macrocode} -\newcommand{\abs}[1]{\ensuremath{\left\lvert{#1}\right\rvert}} +\@ifpackageloaded{physymb}{% + \typeout{mandi: Package physymb detected. Its commands will be used.} +}{% + \newcommand{\abs}[1]{\ensuremath{\left\lvert{#1}\right\rvert}} +}% % \end{macrocode} % \end{macro} % @@ -7871,7 +8031,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld {#1}% \end{minipage}}% \vspace{\baselineskip}% - \end{center}}% + \end{center}% +}% % \end{macrocode} % \end{macro} % @@ -7886,7 +8047,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \vspace{#7\textheight}% \end{minipage}}% \vspace{\baselineskip}% - \end{center}}% + \end{center}% +}% % \end{macrocode} % \end{macro} % @@ -7899,7 +8061,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \emptyanswer[#5][#6]}% \vspace{\baselineskip}% \end{center}}% - {\emptybox[#1][#2][#3][#4][#5][#6]}}% + {\emptybox[#1][#2][#3][#4][#5][#6]}% +}% % \end{macrocode} % \end{macro} % @@ -7913,7 +8076,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \emptyanswer[#5][#6]}% \vspace{\baselineskip}% \end{center}}% - {\adjemptybox[#1][#2][#3][#4][#5][#6][#7]}}% + {\adjemptybox[#1][#2][#3][#4][#5][#6][#7]}% +}% % \end{macrocode} % \end{macro} % @@ -7928,7 +8092,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \emptyanswer[#5][#6]}% \vspace{\baselineskip}% \end{center}}% - {\emptybox[#1][#2][#3][#4][#5][#6]}}% + {\emptybox[#1][#2][#3][#4][#5][#6]}% +}% % \end{macrocode} % \end{macro} % @@ -8038,7 +8203,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \emptyanswer[#5][#6]}% \vspace{\baselineskip}% \end{center}}% - {\emptybox[#1][#2][#3][#4][#5][#6]}}% + {\emptybox[#1][#2][#3][#4][#5][#6]}% +}% % \end{macrocode} % \end{macro} % @@ -8156,7 +8322,7 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \BODY \end{align} \end{mdframed} -} +}% % \end{macrocode} % \end{macro} % diff --git a/Master/texmf-dist/source/latex/mandi/mandi.ins b/Master/texmf-dist/source/latex/mandi/mandi.ins index 1d4ed942283..1b3a8710abe 100644 --- a/Master/texmf-dist/source/latex/mandi/mandi.ins +++ b/Master/texmf-dist/source/latex/mandi/mandi.ins @@ -62,8 +62,6 @@ and includes the derived files README \generate{\file{\jobname.ins}{\from{\jobname.dtx}{install}}} \generate{\usepreamble\empty\usepostamble\empty \file{vdemo.py}{\from{\jobname.dtx}{vdemo}}} -\generate{\usepreamble\empty\usepostamble\empty - \file{README.txt}{\from{\jobname.dtx}{readme}}} \obeyspaces \Msg{*************************************************************} diff --git a/Master/texmf-dist/tex/latex/mandi/mandi.sty b/Master/texmf-dist/tex/latex/mandi/mandi.sty index acaf0bf1399..d5206ea8965 100644 --- a/Master/texmf-dist/tex/latex/mandi/mandi.sty +++ b/Master/texmf-dist/tex/latex/mandi/mandi.sty @@ -28,9 +28,9 @@ %% vdemo.py. %% --------------------------------------------------------------------------- %% -\ProvidesPackage{mandi}[2012/12/31 2.0.0 Macros for intro physics and astronomy] +\ProvidesPackage{mandi}[2013/04/10 2.1.0 Macros for intro physics and astronomy] \NeedsTeXFormat{LaTeX2e}[1999/12/01] -\RequirePackage[intlimits]{amsmath} +\RequirePackage{amsmath} \RequirePackage{amssymb} \RequirePackage{bigints} \RequirePackage{cancel} @@ -38,8 +38,8 @@ \RequirePackage[dvipsnames]{xcolor} \RequirePackage{environ} \RequirePackage{etoolbox} -\RequirePackage{extarrows} \RequirePackage{filehook} +\RequirePackage{extarrows} \RequirePackage[T1]{fontenc} \RequirePackage{graphicx} \RequirePackage{epstopdf} @@ -47,7 +47,6 @@ \RequirePackage{letltxmacro} \RequirePackage{listings} \RequirePackage[framemethod=TikZ]{mdframed} -\RequirePackage[amssymb,cdot,derivedinbase,derived,thickqspace]{SIunits} \RequirePackage{suffix} \RequirePackage{xargs} \RequirePackage{xparse} @@ -75,23 +74,68 @@ \DeclareOption{baseunits}{\setboolean{@optbaseunits}{true}} \DeclareOption{drvdunits}{\setboolean{@optdrvdunits}{true}} \ProcessOptions\relax -\AtBeginOfPackageFile*{SIunits}{% -\csundef{power} +\@ifpackageloaded{amssymb}{% \csundef{square} - \newcommand*{\square}[1]{\ensuremath{\mathrm{#1}^{2}}} - \renewcommand*{\squared}{\ensuremath{^{\mathrm{2}}}} - \renewcommand*{\cubic}[1]{\ensuremath{\mathrm{#1}^{3}}} - \renewcommand*{\cubed}{\ensuremath{^{\mathrm{3}}}} -\renewcommand*{\fourth}[1]{\ensuremath{\mathrm{#1}^{4}}} -\renewcommand*{\reciprocal}[1]{\ensuremath{\mathrm{#1}^{\SIminus1}}} -\renewcommand*{\rp}{\ensuremath{^{\mathrm{\SIminus1}}}} -\renewcommand*{\rpsquare}[1]{\ensuremath{\mathrm{#1}^{\SIminus2}}} -\renewcommand*{\rpsquared}{\ensuremath{^{\mathrm{\SIminus2}}}} -\renewcommand*{\rpcubic}[1]{\ensuremath{\mathrm{#1}^{\SIminus3}}} -\renewcommand*{\rpcubed}{\ensuremath{^{\mathrm{\SIminus3}}}} -\renewcommand*{\rpfourth}[1]{\ensuremath{\mathrm{#1}^{\SIminus4}}} -\typeout{mandi: SIunits conflicts fixed, but don't use \protect\square\space.} + \typeout{mandi: Package amssymb detected. Its \protect\square\space has been redefined.} +}{% + \typeout{mandi: Package amssymb not detected.} }% +\newcommand{\per}{\ensuremath{/}} +\newcommand{\usk}{\ensuremath{\cdot}} +\newcommand{\unit}[2]{\ensuremath{{#1}\,{#2}}} +\newcommand{\ampere}{\ensuremath{\mathrm{A}}} +\newcommand{\arcminute}{\ensuremath{'}} +\newcommand{\arcsecond}{\ensuremath{''}} +\newcommand{\atomicmassunit}{\ensuremath{\mathrm{u}}} +\newcommand{\candela}{\ensuremath{\mathrm{cd}}} +\newcommand{\coulomb}{\ensuremath{\mathrm{C}}} +\newcommand{\degree}{\ensuremath{^{\circ}}} +\newcommand{\electronvolt}{\ensuremath{\mathrm{eV}}} +\newcommand{\farad}{\ensuremath{\mathrm{F}}} +\newcommand{\henry}{\ensuremath{\mathrm{H}}} +\newcommand{\hertz}{\ensuremath{\mathrm{Hz}}} +\newcommand{\hour}{\ensuremath{\mathrm{h}}} +\newcommand{\joule}{\ensuremath{\mathrm{J}}} +\newcommand{\kelvin}{\ensuremath{\mathrm{K}}} +\newcommand{\kilogram}{\ensuremath{\mathrm{kg}}} +\newcommand{\metre}{\ensuremath{\mathrm{m}}} +\newcommand{\minute}{\ensuremath{\mathrm{min}}} +\newcommand{\mole}{\ensuremath{\mathrm{mol}}} +\newcommand{\newton}{\ensuremath{\mathrm{N}}} +\newcommand{\ohm}{\ensuremath{\Omega}} +\newcommand{\pascal}{\ensuremath{\mathrm{Pa}}} +\newcommand{\radian}{\ensuremath{\mathrm{rad}}} +\newcommand{\second}{\ensuremath{\mathrm{s}}} +\newcommand{\siemens}{\ensuremath{\mathrm{S}}} +\newcommand{\steradian}{\ensuremath{\mathrm{sr}}} +\newcommand{\tesla}{\ensuremath{\mathrm{T}}} +\newcommand{\volt}{\ensuremath{\mathrm{V}}} +\newcommand{\watt}{\ensuremath{\mathrm{W}}} +\newcommand{\weber}{\ensuremath{\mathrm{Wb}}} +\newcommand{\C}{\coulomb} +\newcommand{\F}{\farad} +\newcommand{\J}{\joule} +\newcommand{\N}{\newton} +\newcommand{\Pa}{\pascal} +\newcommand{\rad}{\radian} +\newcommand{\sr}{\steradian} +\newcommand{\T}{\tesla} +\newcommand{\V}{\volt} +\newcommand{\W}{\watt} +\newcommand{\square}[1]{\ensuremath{\mathrm{#1}^{2}}} % prefix 2 +\newcommand*{\cubic}[1]{\ensuremath{\mathrm{#1}^{3}}} % prefix 3 +\newcommand*{\quartic}[1]{\ensuremath{\mathrm{#1}^{4}}} % prefix 4 +\newcommand*{\reciprocal}[1]{\ensuremath{\mathrm{#1}^{-1}}} % prefix -1 +\newcommand*{\reciprocalsquare}[1]{\ensuremath{\mathrm{#1}^{-2}}} % prefix -2 +\newcommand*{\reciprocalcubic}[1]{\ensuremath{\mathrm{#1}^{-3}}} % prefix -3 +\newcommand*{\reciprocalquartic}[1]{\ensuremath{\mathrm{#1}^{-4}}} % prefix -4 +\newcommand*{\squared}{\ensuremath{^{\mathrm{2}}}} % postfix 2 +\newcommand*{\cubed}{\ensuremath{^{\mathrm{3}}}} % postfix 3 +\newcommand*{\quarted}{\ensuremath{^{\mathrm{4}}}} % postfix 4 +\newcommand*{\reciprocaled}{\ensuremath{^{\mathrm{-1}}}} % postfix -1 +\newcommand*{\reciprocalsquared}{\ensuremath{^{\mathrm{-2}}}} % postfix -2 +\newcommand*{\reciprocalcubed}{\ensuremath{^{\mathrm{-3}}}} % postfix -3 +\newcommand*{\reciprocalquarted}{\ensuremath{^{\mathrm{-4}}}} % postfix -4 \newcommand\mi@exchangeargs[2]{#2#1}% \newcommand\mi@name{}% \long\def\mi@name#1#{\romannumeral0\mi@innername{#1}}% @@ -195,65 +239,102 @@ \newphysicsquantity{temperature}{\K}[\K][\K] \newphysicsquantity{amount}{\mol}[\mol][\mol] \newphysicsquantity{luminous}{\cd}[\cd][\cd] -\newphysicsquantity{planeangle}{\m\usk\reciprocal\m}[\radian][\radian] -\newphysicsquantity{solidangle}{\m\squared\usk\rpsquare\m}[\steradian][\steradian] +\newphysicsquantity{planeangle}{\m\usk\reciprocal\m}[\rad][\rad] +\newphysicsquantity{solidangle}{\m\squared\usk\reciprocalsquare\m}[\sr][\sr] \newcommand{\indegrees}[1]{\ensuremath{\unit{#1}{\degree}}} \newcommand{\inarcminutes}[1]{\ensuremath{\unit{#1}{\arcminute}}} \newcommand{\inarcseconds}[1]{\ensuremath{\unit{#1}{\arcsecond}}} \newcommand{\ineV}[1]{\ensuremath{\unit{#1}{\electronvolt}}} -\newcommand{\inAU}[1]{\ensuremath{\unit{#1}{AU}}} +\newcommand{\inAU}[1]{\ensuremath{\unit{#1}{\mathrm{AU}}}} \newcommand{\velocityc}[1]{\ensuremath{#1c}} \newphysicsquantity{velocity}{\m\usk\reciprocal\s}[\m\usk\reciprocal\s][\m\per\s] -\newphysicsquantity{acceleration}{\m\usk\s\rpsquared}[\newton\per\kg][\m\per\s\squared] +\newphysicsquantity{acceleration}{\m\usk\s\reciprocalsquared}[\N\per\kg][\m\per\s\squared] \newcommand{\gamman}[1]{\ensuremath{#1}} -\newphysicsquantity{momentum}{\m\usk\kg\usk\reciprocal\s}[\newton\usk\s][\kg\usk\m\per\s] -\newphysicsquantity{impulse}{\m\usk\kg\usk\reciprocal\s}[\newton\usk\s][\kg\usk\m\per\s] -\newphysicsquantity{force}{\m\usk\kg\usk\s\rpsquared}[\newton][\newton] -\newphysicsquantity{springstiffness}{\kg\usk\s\rpsquared}[\newton\per\m][\newton\per\m] +\newphysicsquantity{momentum}{\m\usk\kg\usk\reciprocal\s}[\N\usk\s][\kg\usk\m\per\s] +\newphysicsquantity{impulse}{\m\usk\kg\usk\reciprocal\s}[\N\usk\s][\kg\usk\m\per\s] +\newphysicsquantity{force}{\m\usk\kg\usk\s\reciprocalsquared}[\N][\N] +\newphysicsquantity{springstiffness}{\kg\usk\s\reciprocalsquared}[\N\per\m][\N\per\m] \newphysicsquantity{springstretch}{\m} \newphysicsquantity{area}{\m\squared} \newphysicsquantity{volume}{\cubic\m} \newphysicsquantity{linearmassdensity}{\reciprocal\m\usk\kg}[\kg\per\m][\kg\per\m] -\newphysicsquantity{areamassdensity}{\m\rpsquared\usk\kg}[\kg\per\m\squared] +\newphysicsquantity{areamassdensity}{\m\reciprocalsquared\usk\kg}[\kg\per\m\squared] [\kg\per\m\squared] -\newphysicsquantity{volumemassdensity}{\m\rpcubed\usk\kg}[\kg\per\m\cubed] +\newphysicsquantity{volumemassdensity}{\m\reciprocalcubed\usk\kg}[\kg\per\m\cubed] [\kg\per\m\cubed] -\newphysicsquantity{youngsmodulus}{\reciprocal\m\usk\kg\usk\s\rpsquared} -[\newton\per\m\squared][\pascal] -\newphysicsquantity{work}{\m\squared\usk\kilogram\usk\s\rpsquared}[\joule] -[\newton\usk\m] -\newphysicsquantity{energy}{\m\squared\usk\kilogram\usk\s\rpsquared}[\joule] -[\newton\usk\m] -\newphysicsquantity{power}{\m\squared\usk\kg\usk\s\rpcubed}[\watt][\joule\per\s] -\newphysicsquantity{angularvelocity}{\radian\usk\reciprocal\s}[\radian\per\s] -[\radian\per\s] -\newphysicsquantity{angularacceleration}{\radian\usk\s\rpsquared}[\radian\per\s\squared] -[\radian\per\s\squared] -\newphysicsquantity{angularmomentum}{\m\squared\usk\kg\usk\reciprocal\s}[\joule\usk\s] +\newphysicsquantity{youngsmodulus}{\reciprocal\m\usk\kg\usk\s\reciprocalsquared} +[\N\per\m\squared][\Pa] +\newphysicsquantity{work}{\m\squared\usk\kg\usk\s\reciprocalsquared}[\J] +[\N\usk\m] +\newphysicsquantity{energy}{\m\squared\usk\kg\usk\s\reciprocalsquared}[\J] +[\N\usk\m] +\newphysicsquantity{power}{\m\squared\usk\kg\usk\s\reciprocalcubed}[\W][\J\per\s] +\newphysicsquantity{angularvelocity}{\rad\usk\reciprocal\s}[\rad\per\s][\rad\per\s] +\newphysicsquantity{angularacceleration}{\rad\usk\s\reciprocalsquared}[\rad\per\s\squared] +[\rad\per\s\squared] +\newphysicsquantity{angularmomentum}{\m\squared\usk\kg\usk\reciprocal\s}[\J\usk\s] [\kg\usk\m\squared\per\s] -\newphysicsquantity{momentofinertia}{\m\squared\usk\kg}[\joule\usk\s\squared] +\newphysicsquantity{momentofinertia}{\m\squared\usk\kg}[\J\usk\s\squared] [\kg\usk\m\squared] -\newphysicsquantity{torque}{\m\squared\usk\kg\usk\s\rpsquared}[\joule\per\radian] -[\newton\usk\m] -\newphysicsquantity{entropy}{\m\squared\usk\kilogram\usk\s\rpsquared\usk\reciprocal\K} -[\joule\per\K][\joule\per\K] +\newphysicsquantity{torque}{\m\squared\usk\kg\usk\s\reciprocalsquared}[\J\per\rad] +[\N\usk\m] +\newphysicsquantity{entropy}{\m\squared\usk\kg\usk\s\reciprocalsquared\usk\reciprocal\K} +[\J\per\K][\J\per\K] \newphysicsquantity{wavelength}{\m}[\m][\m] \newphysicsquantity{wavenumber}{\reciprocal\m}[\per\m][\per\m] \newphysicsquantity{frequency}{\reciprocal\s}[\hertz][\hertz] -\newphysicsquantity{angularfrequency}{\radian\usk\reciprocal\s}[\radian\per\s] -[\radian\per\s] -\newphysicsquantity{charge}{\A\usk\s}[\coulomb][\coulomb] -\newphysicsquantity{permittivity}{\m\rpcubed\usk\reciprocal\kg\usk\s^{4}\usk\A\squared} -[\farad\per\m][\coulomb\squared\per\newton\usk\m\squared] -\newphysicsquantity{permeability}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared} -[\henry\per\m][\tesla\usk\m\per\A] -\newphysicsquantity{electricfield}{\m\usk\kg\usk\s\rpcubed\usk\reciprocal\A}[\volt\per\m] -[\newton\per\coulomb] -\newphysicsquantity{electricdipolemom}{\m\usk\s\usk\A}[\coulomb\usk\m][\coulomb\usk\m] -\newphysicsquantity{magneticfield}{\kg\usk\s\rpsquared\usk\reciprocal\A}[\tesla] -[\newton\per\coulomb\usk(\m\per\s)] -\newphysicsquantity{cmagneticfield}{\m\usk\kg\usk\s\rpcubed\usk\reciprocal\A}[\volt\per\m] -[\newton\per\coulomb] +\newphysicsquantity{angularfrequency}{\rad\usk\reciprocal\s}[\rad\per\s][\rad\per\s] +\newphysicsquantity{charge}{\A\usk\s}[\C][\C] +\newphysicsquantity{permittivity}{\m\reciprocalcubed\usk\reciprocal\kg\usk\s + \reciprocalquarted\usk\A\squared}[\F\per\m][\C\squared\per\N\usk\m\squared] +\newphysicsquantity{permeability}{\m\usk\kg\usk\s\reciprocalsquared\usk\A + \reciprocalsquared}[\henry\per\m][\T\usk\m\per\A] +\newphysicsquantity{electricfield}{\m\usk\kg\usk\s\reciprocalcubed\usk\reciprocal\A} +[\V\per\m][\N\per\C] +\newphysicsquantity{electricdipolemoment}{\m\usk\s\usk\A}[\C\usk\m][\C\usk\m] +\newphysicsquantity{magneticfield}{\kg\usk\s\reciprocalsquared\usk\reciprocal\A}[\T] +[\N\per\C\usk(\m\per\s)] +\newphysicsquantity{cmagneticfield}{\m\usk\kg\usk\s\reciprocalcubed\usk\reciprocal\A} +[\V\per\m][\N\per\C] +\newphysicsquantity{linearchargedensity}{\reciprocal\m\usk\s\usk\A}[\C\per\m][\C\per\m] +\newphysicsquantity{areachargedensity}{\reciprocalsquare\m\usk\s\usk\A} +[\C\per\square\m][\C\per\square\m] +\newphysicsquantity{volumechargedensity}{\reciprocalcubic\m\usk\s\usk\A} +[\C\per\cubic\m][\C\per\cubic\m] +\newphysicsquantity{mobility} +{\m\squared\usk\kg\usk\s\reciprocalquarted\usk\reciprocal\A}[\m\squared\per\volt\usk\s] +[(\m\per\s)\per(\N\per\C)] +\newphysicsquantity{numberdensity}{\reciprocalcubic\m}[\per\cubic\m][\per\cubic\m] +\newphysicsquantity{polarizability}{\reciprocal\kg\usk\s\quarted\usk\square\A} +[\C\usk\square\m\per\V][\C\usk\m\per(\N\per\C)] +\newphysicsquantity{electricpotential} +{\square\m\usk\kg\usk\reciprocalcubic\s\usk\reciprocal\A}[\J\per\C][\V] +\newphysicsquantity{emf}{\square\m\usk\kg\usk\reciprocalcubic\s\usk\reciprocal\A} +[\J\per\C][\V] +\newphysicsquantity{dielectricconstant}{}[][] +\newphysicsquantity{indexofrefraction}{}[][] +\newphysicsquantity{relativepermittivity}{}[][] +\newphysicsquantity{relativepermeability}{}[][] +\newphysicsquantity{energydensity}{\m\reciprocaled\usk\kg\usk\reciprocalsquare\s} +[\J\per\cubic\m][\J\per\cubic\m] +\newphysicsquantity{electroncurrent}{\reciprocal\s} +[\ensuremath{\mathrm{e}}\per\s][\ensuremath{\mathrm{e}}\per\s] +\newphysicsquantity{conventionalcurrent}{\A}[\C\per\s][\A] +\newphysicsquantity{magneticdipolemoment}{\square\m\usk\A}[\J\per\T][\A\usk\square\m] +\newphysicsquantity{currentdensity}{\reciprocalsquare\m\usk\A}[\C\usk\s\per\square\m] +[\A\per\square\m] +\newphysicsquantity{capacitance} +{\reciprocalsquare\m\usk\reciprocal\kg\usk\quartic\s\usk\square\A}[\C\per\V][\F] +\newphysicsquantity{conductivity} +{\reciprocalcubic\m\usk\reciprocal\kg\usk\cubic\s\usk\square\A}[\siemens\per\m] +[\A\per\V\usk\m] +\newphysicsquantity{resistivity} +{\cubic\m\usk\kg\usk\reciprocalcubic\s\usk\reciprocalsquare\A}[\m\per\siemens] +[\ohm\usk\m] +\newphysicsquantity{resistance} +{\square\m\usk\kg\usk\reciprocalcubic\s\usk\reciprocalsquare\A}[\V\per\A][\ohm] +\newphysicsquantity{conductance} +{\reciprocalsquare\m\usk\reciprocal\kg\usk\cubic\s\usk\square\A}[\A\per\V][\siemens] \newcommand{\lv}{\ensuremath{\left\langle}} \newcommand{\rv}{\ensuremath{\right\rangle}} \newcommand{\symvect}{\mivector} @@ -732,59 +813,61 @@ }% }% \newphysicsconstant{oofpez}{\ensuremath{\frac{1}{\phantom{_o}4\pi\ssub{\epsilon}{o}}}} -{\scin[9]{9}}{\ensuremath{\m\cubed\usk\kg\usk\s^{-4}\usk\A\rpsquared}}[\m\per\farad] -[\newton\usk\m\squared\per\coulomb\squared] +{\scin[9]{9}}{\ensuremath{\m\cubed\usk\kg\usk\reciprocalquartic\s\usk\\reciprocalsquared}} +[\m\per\farad][\newton\usk\m\squared\per\coulomb\squared] \newphysicsconstant{oofpezcs}{\ensuremath{\frac{1}{\phantom{_o}4\pi\ssub{\epsilon}{o} -c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\usk\m -\squared][\newton\usk\s\squared\per\coulomb\squared] +c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\reciprocalsquared\usk\A\reciprocalsquared} +[\T\usk\m\squared][\N\usk\s\squared\per\C\squared] \newphysicsconstant{epsz}{\ensuremath{\ssub{\epsilon}{o}}}{\scin[9]{-12}} -{\m\rpcubed\usk\reciprocal\kg\usk\s^{4}\usk\A\squared}[\farad\per\m] -[\coulomb\squared\per\newton\usk\m\squared] +{\m\reciprocalcubed\usk\reciprocal\kg\usk\s\quarted\usk\A\squared}[\F\per\m] +[\C\squared\per\N\usk\m\squared] \newphysicsconstant{mzofp}{\ensuremath{\frac{\phantom{_oo}\ssub{\mu}{o}\phantom{_o}} -{4\pi}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\henry\per\m] +{4\pi}}}{\scin{-7}}{\m\usk\kg\usk\s\reciprocalsquared\usk\A\reciprocalsquared} +[\henry\per\m] [\tesla\usk\m\per\A] \newphysicsconstant{muz}{\ensuremath{\ssub{\mu}{o}}}{\scin[4\pi]{-7}} -{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\henry\per\m][\tesla\usk\m\per\A] +{\m\usk\kg\usk\s\reciprocalsquared\usk\A\reciprocalsquared}[\henry\per\m] +[\T\usk\m\per\A] \newphysicsconstant{kboltz}{\ensuremath{\ssub{k}{B}}}{\scin[1.38]{-23}} -{\kg\usk\m\squared\usk\rpsquare\s\usk\reciprocal\K}[\joule\per\K][\joule\per\K] +{\kg\usk\m\squared\usk\reciprocalsquare\s\usk\reciprocal\K}[\joule\per\K][\J\per\K] \newcommand{\kboltznev}{\ensuremath{\scin[8.62]{-5}{\eV\per\K}}} -\newphysicsconstant{stefan}{\ensuremath{\sigma}}{\scin[5.67]{-8}}{\kg\usk\s\rpcubed\usk -\K^{-4}}[\watt\per\m\squared\usk\K^4][\watt\per\m\squared\usk\K^4] +\newphysicsconstant{stefan}{\ensuremath{\sigma}}{\scin[5.67]{-8}} +{\kg\usk\s\reciprocalcubed\usk\K\reciprocalquarted}[\W\per\m\squared\usk\K^4] +[\W\per\m\squared\usk\K\quarted] \newphysicsconstant{planck}{\ensuremath{h}}{\scin[6.62]{-34}} -{\m\squared\usk\kg\usk\reciprocal\s}[\joule\usk\s][\kg\usk\m\squared\per\s] +{\m\squared\usk\kg\usk\reciprocal\s}[\J\usk\s][\kg\usk\m\squared\per\s] \newcommand{\plancknev}{\ensuremath{\scin[4.136]{-15}{\eV\usk\s}}} \newphysicsconstant{planckbar}{\ensuremath{\hbar}}{\scin[1.05]{-34}} {\m\squared\usk\kg\usk\reciprocal\s}[\joule\usk\s][\kg\usk\m\squared\per\s] \newcommand{\planckbarnev}{\ensuremath{\scin[4.136]{-15}{\eV\usk\s}}} -\newphysicsconstant{Navogadro}{\ensuremath{\ssub{N}{A}}}{\scin[6.022]{23}}{\reciprocal -\mol}[\reciprocal\mol][\reciprocal\mol] +\newphysicsconstant{Navogadro}{\ensuremath{\ssub{N}{A}}}{\scin[6.022]{23}} +{\reciprocal\mol}[\reciprocal\mol][\reciprocal\mol] \newphysicsconstant{bigG}{\ensuremath{G}}{\scin[6.67]{-11}} -{\m\cubed\usk\reciprocal\kg\usk\s\rpsquared}[\joule\usk\m\per\kg\squared] -[\newton\usk\m\squared\per\kg\squared] -\newphysicsconstant{littleg}{\ensuremath{g}}{9.80}{\m\usk\s\rpsquared}[\newton\per\kg] -[\m\per\s\squared] +{\m\cubed\usk\reciprocal\kg\usk\s\reciprocalsquared}[\J\usk\m\per\kg\squared] +[\N\usk\m\squared\per\kg\squared] +\newphysicsconstant{littleg}{\ensuremath{g}}{9.80}{\m\usk\s\reciprocalsquared} +[\N\per\kg][\m\per\s\squared] \newphysicsconstant{clight}{\ensuremath{c}}{\scin[3.00]{8}}{\m\usk\reciprocal\s} [\m\usk\reciprocal\s][\m\per\s] -\newcommand{\clightnfn}{\ensuremath{\unit{1}{ft\per\nano\s}}} +\newcommand{\clightnfn}{\ensuremath{\unit{1}{\mathrm{ft}\per\mathrm{n}\s}}} \newphysicsconstant{Ratom}{\ensuremath{\ssub{r}{atom}}}{\scin{-10}}{\m}[\m][\m] -\newphysicsconstant{Mproton}{\ensuremath{\ssub{m}{proton}}}{\scin[1.673]{-27}}{\kg} -[\kg][\kg] +\newphysicsconstant{Mproton}{\ensuremath{\ssub{m}{proton}}}{\scin[1.673]{-27}} +{\kg}[\kg][\kg] \newphysicsconstant{Mneutron}{\ensuremath{\ssub{m}{neutron}}}{\scin[1.675]{-27}} {\kg}[\kg][\kg] \newphysicsconstant{Mhydrogen}{\ensuremath{\ssub{m}{hydrogen}}}{\scin[1.673]{-27}} {\kg}[\kg][\kg] \newphysicsconstant{Melectron}{\ensuremath{\ssub{m}{electron}}}{\scin[9.109]{-31}} {\kg}[\kg][\kg] -\newphysicsconstant{echarge}{\ensuremath{e}}{\scin[1.602]{-19}}{\A\usk\s}[\coulomb] -[\coulomb] +\newphysicsconstant{echarge}{\ensuremath{e}}{\scin[1.602]{-19}}{\A\usk\s}[\C][\C] \newphysicsconstant{Qelectron}{\ensuremath{\ssub{Q}{electron}}}{-\echargevalue} -{\A\usk\s}[\coulomb][\coulomb] +{\A\usk\s}[\C][\C] \newphysicsconstant{qelectron}{\ensuremath{\ssub{q}{electron}}}{-\echargevalue} -{\A\usk\s}[\coulomb][\coulomb] +{\A\usk\s}[\C][\C] \newphysicsconstant{Qproton}{\ensuremath{\ssub{Q}{proton}}}{+\echargevalue} -{\A\usk\s}[\coulomb][\coulomb] +{\A\usk\s}[\C][\C] \newphysicsconstant{qproton}{\ensuremath{\ssub{q}{proton}}}{+\echargevalue} -{\A\usk\s}[\coulomb][\coulomb] +{\A\usk\s}[\C][\C] \newphysicsconstant{MEarth}{\ensuremath{\ssub{M}{Earth}}}{\scin[6]{24}}{\kg}[\kg][\kg] \newphysicsconstant{MMoon}{\ensuremath{\ssub{M}{Moon}}}{\scin[7]{22}}{\kg}[\kg][\kg] \newphysicsconstant{MSun}{\ensuremath{\ssub{M}{Sun}}}{\scin[2]{30}}{\kg}[\kg][\kg] @@ -803,7 +886,7 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ \newcommand{\yr}{\ensuremath{\mathrm{yr}}} \newcommand{\parsec}{\ensuremath{\mathrm{pc}}} \newphysicsconstant{LSun}{\ensuremath{\ssub{L}{Sun}}}{\scin[4]{26}} - {\m\squared\usk\kg\usk\s\rpcubed}[\watt][\joule\per\s] + {\m\squared\usk\kg\usk\s\reciprocalcubed}[\W][\J\per\s] \newphysicsconstant{TSun}{\ensuremath{\ssub{T}{Sun}}}{5800}{\K}[\K][\K] \newphysicsconstant{MagSun}{\ensuremath{\ssub{M}{Sun}}}{+4.83}{}[][] \newphysicsconstant{magSun}{\ensuremath{\ssub{m}{Sun}}}{-26.74}{}[][] @@ -851,7 +934,11 @@ c^2\phantom{_o}}}}{\scin{-7}}{\m\usk\kg\usk\s\rpsquared\usk\A\rpsquared}[\tesla\ \newcommand{\fourthirds}{\ensuremath{\frac{4}{3}}\xspace} \newcommand{\dx}[1]{\ensuremath{\,\mathrm{d}{#1}}} \newcommand{\evalfromto}[3]{\ensuremath{\Bigg.{#1}\Bigg\rvert_{#2}^{#3}}} -\newcommand{\evalat}[2]{\ensuremath{\Bigg.{#1}\Bigg\rvert_{#2}}} +\@ifpackageloaded{physymb}{% + \typeout{mandi: Package physymb detected. Its commands will be used.} +}{% + \newcommand{\evalat}[2]{\ensuremath{\Bigg.{#1}\Bigg\rvert_{#2}}} +}% \newcommand{\evaluatedat}[1]{\ensuremath{\Bigg.\Bigg\rvert_{#1}}} \newcommandx{\integral}[4][1,2,usedefault]{\ensuremath{ \int_{\ifthenelse{\equal{#1}{}}{}{#4=#1}}^{\ifthenelse{\equal{#2}{}}{}{#4=#2}}} @@ -912,9 +999,19 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \xspace} \newcommand{\binomialseries}{\ensuremath{% (1 + x)^n \approx 1 + nx + \frac{n(n-1)}{2!}x^2 + \ldots}\xspace} -\newcommand{\divergence}[1]{\ensuremath{\vectdotvect{\nabla}{#1}}} -\newcommand{\curl}[1]{\ensuremath{\nabla\times{#1}}} +\@ifpackageloaded{physymb}{% + \typeout{mandi: Package physymb detected. Its commands will be used.} +}{% + \newcommand{\gradient}{\ensuremath{\nabla}} + \newcommand{\divergence}{\ensuremath{\nabla\bullet}} + \newcommand{\curl}{\ensuremath{\nabla\times}} + \newcommand{\laplacian}{\ensuremath{\msup{\nabla}{2}}} + \newcommand{\dalembertian}{\ensuremath{\Box}} +}% \newcommand{\diracdelta}[1]{\ensuremath{\boldsymbol{\delta}\quant{#1}}} +\@ifpackageloaded{physymb}{% + \typeout{mandi: Package physymb detected. Its commands will be used.} +}{% \DeclareMathOperator{\asin}{\sin^{-1}} \DeclareMathOperator{\acos}{\cos^{-1}} \DeclareMathOperator{\atan}{\tan^{-1}} @@ -930,10 +1027,10 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \DeclareMathOperator{\acsch}{\csch^{-1}} \DeclareMathOperator{\acoth}{\coth^{-1}} \DeclareMathOperator{\sgn}{sgn} +}% \DeclareMathOperator{\dex}{dex} \newcommand{\eV}{\electronvolt} \newcommand{\ev}{\electronvolt} -\newcommand{\emf}{\ensuremath{\mathrm{emf}}} \newcommand{\logb}[1][\relax]{\ensuremath{\log_{_{#1}}}} \ifthenelse{\boolean{@optitalicvectors}} {\newcommand{\cB}{\ensuremath{c\mskip -5.00mu B}}} @@ -941,7 +1038,11 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \newcommand{\newpi}{\ensuremath{\pi\mskip -7.8mu\pi}} \newcommand{\scripty}[1]{\ensuremath{\mathcalligra{#1}}} \newcommandx{\flux}[1][1]{\ensuremath{\ssub{\Phi}{#1}}} -\newcommand{\abs}[1]{\ensuremath{\left\lvert{#1}\right\rvert}} +\@ifpackageloaded{physymb}{% + \typeout{mandi: Package physymb detected. Its commands will be used.} +}{% + \newcommand{\abs}[1]{\ensuremath{\left\lvert{#1}\right\rvert}} +}% \newcommand{\magof}[1]{\ensuremath{\left\lVert{#1}\right\rVert}} \newcommand{\dimsof}[1]{\ensuremath{\left[{#1}\right]}} \newcommand{\unitsof}[1]{\ensuremath{\left[{#1}\right]_{_{u}}}} @@ -1135,7 +1236,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld {#1}% \end{minipage}}% \vspace{\baselineskip}% - \end{center}}% + \end{center}% +}% \newcommandx{\adjemptybox}[7][1=\hfill,2=white,3=black,4=black,5=0.90,6=,7=0.0,usedefault] {\begin{center} \fcolorbox{#3}{#2}{% @@ -1145,7 +1247,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \vspace{#7\textheight}% \end{minipage}}% \vspace{\baselineskip}% - \end{center}}% + \end{center}% +}% \newcommandx{\answerbox}[6][1=\hfill,2=white,3=black,4=black,5=0.90,6=0.1,usedefault] {\ifthenelse{\equal{#1}{}} {\begin{center}% @@ -1153,7 +1256,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \emptyanswer[#5][#6]}% \vspace{\baselineskip}% \end{center}}% - {\emptybox[#1][#2][#3][#4][#5][#6]}}% + {\emptybox[#1][#2][#3][#4][#5][#6]}% +}% \newcommandx{\adjanswerbox}[7][1=\hfill,2=white,3=black,4=black,5=0.90,6=0.1,7=0.0, usedefault] {\ifthenelse{\equal{#1}{}}% @@ -1162,7 +1266,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \emptyanswer[#5][#6]}% \vspace{\baselineskip}% \end{center}}% - {\adjemptybox[#1][#2][#3][#4][#5][#6][#7]}}% + {\adjemptybox[#1][#2][#3][#4][#5][#6][#7]}% +}% \newcommandx{\smallanswerbox}[6][1=\hfill,2=white,3=black,4=black,5=0.90,6=0.10, usedefault] {\ifthenelse{\equal{#1}{}} @@ -1171,7 +1276,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \emptyanswer[#5][#6]}% \vspace{\baselineskip}% \end{center}}% - {\emptybox[#1][#2][#3][#4][#5][#6]}}% + {\emptybox[#1][#2][#3][#4][#5][#6]}% +}% \newcommandx{\mediumanswerbox}[6][1=\hfill,2=white,3=black,4=black,5=0.90,6=0.20, usedefault]{% \ifthenelse{\equal{#1}{}} @@ -1245,7 +1351,8 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \emptyanswer[#5][#6]}% \vspace{\baselineskip}% \end{center}}% - {\emptybox[#1][#2][#3][#4][#5][#6]}}% + {\emptybox[#1][#2][#3][#4][#5][#6]}% +}% \mdfdefinestyle{miinstructornotestyle}{% hidealllines=false, skipbelow=\baselineskip, skipabove=\baselineskip, leftmargin=40pt, rightmargin=40pt, linewidth=1, roundcorner=10, @@ -1331,7 +1438,7 @@ a^x \approx 1 + x \ln{a} + \frac{(x \ln a)^2}{2!} + \frac{(x \ln a)^3}{3!} + \ld \BODY \end{align} \end{mdframed} -} +}% \newcommand{\checkpoint}{% \vspace{1cm}\begin{center}|--------- CHECKPOINT ---------|\end{center}}% \newcommand{\image}[2]{% |