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-%D \module
-%D [ file=m-units,
-%D version=1997.03.19,
-%D title=\CONTEXT\ Extra Modules,
-%D subtitle=Scientific Units,
-%D author={Hans Hagen \& Ton Otten},
-%D date=\currentdate,
-%D copyright={PRAGMA ADE \& \CONTEXT\ Development Team}]
-%C
-%C This module is part of the \CONTEXT\ macro||package and is
-%C therefore copyrighted by \PRAGMA. See mreadme.pdf for
-%C details.
-
-%D Best use the built in unit handle!
-
-%D Scientific units can be typeset in math mode pretty well,
-%D but occasionally one has to take care of spacing.
-%D Furthermore, entering these units is not that natural as
-%D wanted. Therefore this module presents a more natural way of
-%D doing things, like:
-%D
-%D \starttyping
-%D 1.23 \Cubic \Meter \Per \Second
-%D \stoptyping
-%D
-%D This example shows that we use the order in which we say
-%D things, instead of typeset things. There is a separate
-%D manual for this module.
-
-%D Message number~1 deals with overruling the \type {\Degrees}
-%D macro defined in the core modules. Let's say that this is
-%D an upward compatibility issue.
-
-\startmessages dutch library: units
- title: eenheden
- 1: gebruik \string\Degrees\space\string\Celsius\space in plaats van \string\Celsius !
-\stopmessages
-
-\startmessages english library: units
- title: units
- 1: use \string\Degrees\space\string\Celsius\space instead of \string\Celsius !
-\stopmessages
-
-\startmessages german library: units
- title: Einheiten
- 1: Verwende \string\Degrees\space\string\Celsius\space statt \string\Celsius !
-\stopmessages
-
-\startmessages italian library: units
- title: unita
- 1: usare \string\Degrees\space\string\Celsius\space invece di \string\Celsius !
-\stopmessages
-
-\startmessages norwegian library: units
- title: enheter
- 1: bruk \string\Degrees\space\string\Celsius\space istedenfor \string\Celsius !
-\stopmessages
-
-\startmessages romanian library: units
- title: unitati
- 1: folositi \string\Degrees\space\string\Celsius\space in locul \string\Celsius !
-\stopmessages
-
-\startmessages french library: units
- title: unitas
- 1: utilisez \string\Degrees\space\string\Celsius\space A la place de \string\Celsius !
-\stopmessages
-
-\registerctxluafile{x-mathml}{}
-
-\unprotect
-
-\writestatus{\m!units}{The units module is obsolete because functionality is built into the core.}
-
-\let\unit\undefined
-
-\definesynonyms
- [\v!unit]
- [\v!units]
- [\unitmeaning]
-
-\setupsynonyms
- [\v!unit]
- [\c!synonymcommand=\dimension]
-
-\startmodule[units]
-
-%D This runtime loadable module implements a way of defining
-%D units. The core macro is \type {\dimension}, a rather clever
-%D one that is able to cooperate with some other dimension
-%D related macros. As said, this module enables user to enter:
-%D
-%D \starttyping
-%D some 10 \Square \Meter \Per \Second or more
-%D \stoptyping
-%D
-%D The units itself are implemented as synonyms.
-%D
-%D \starttyping
-%D \definesynonyms [unit] [units] [\unitmeaning]
-%D \setupsynonyms [unit] [textstyle=\dimension]
-%D \stoptyping
-%D
-%D This definition means that we can ask for the meaning of a
-%D unit using \type {\unitmeaning} and get a list of used
-%D units by saying \type {\placelistofunits}
-%D
-%D We have to use the command \type {\unitmeaning} instead
-%D of \type {\meaning}, simply because the latter is a \TEX\
-%D primitive we don't want to loose. We use the label text
-%D mechanism for translations.
-
-%D \macros
-%D {dimension}
-%D
-%D The core of this module is the low level macro \type
-%D {\dimension}. Before presenting this macro, it's best to
-%D look at some applications, because it's supposed to show
-%D some intelligence that can beter be understood from the
-%D context.
-%D
-%D The next useless examples show some of the cases we want
-%D to handle in a proper way.
-%D
-%D \starttyping
-%D ... 10 \Square \Meter \Per \Volt \
-%D ... 10 \Square \Meter \Volt \
-%D ... 10 \Meter \Volt \
-%D ... 10 \Milli \Square \Meter \Per \Volt \
-%D ... 10 \Square \Milli \Meter \Per \Volt \
-%D ... 10 \Meter \Times \Meter \
-%D ... 10 \Square \Meter \Times \Meter \
-%D ... 10 \Square \Milli \Meter \Times \Meter \
-%D \stoptyping
-
-%D \macros
-%D {mathematicstypeface, dimensiontypeface,
-%D dimensionhalfspace, dimensionbackspace}
-%D
-%D There are some low level constants, that can be changed
-%D when needed. Some day I will write a decent setup command.
-
-\def\mathematicstypeface{\rm}
-\def\dimensiontypeface {\tf}
-
-\def\dimensionhalfspace {\ifmmode\,\else\hskip+.1em\relax\fi}
-\def\dimensionbackspace {\ifmmode\!\else\hskip-.1em\relax\fi}
-
-%D \macros
-%D {smashdimensionpower}
-%D
-%D Sometimes the baseline distance is not enough to provide
-%D for superscripts, so we smash their height by default.
-
-\newif\ifsmashdimensionpower \smashdimensionpowertrue
-
-%D The dimension mechanism uses a lot of signals to keep
-%D track if the current state.
-
-\newsignal\dimensionsignal
-\newsignal\dimensionpowersignal
-\newsignal\dimensionmidfixsignal
-\newsignal\dimensionaddfixsignal
-
-\let\thedimensionprefix = \empty
-\let\thedimensionpower = \empty
-
-%D \macros
-%D {spaceddimensions,textdimensions}
-%D
-%D The actual definition of \type {\dimension} overruled the
-%D one in the core modules. The boolean can be used to
-%D force spacing between units. The rather ugly test prevents
-%D problems with nested dimensions.
-
-\newif\ifspaceddimensions \spaceddimensionsfalse % user switch
-\newif\iftextdimensions \textdimensionsfalse % user switch
-
-%D You can see the consequence of forcing text dimensions
-%D when you compare the following code:
-%D
-%D \starttyping
-%D {\rm test \Square \Meter \Per \Second\ ziezo\Degrees} \par
-%D {\ss test \Square \Meter \Per \Second\ ziezo} \par
-%D {\tt test \Square \Meter \Per \Second\ ziezo}
-%D
-%D \textdimensionstrue
-%D
-%D {\rm test \Square \Meter \Per \Second\ ziezo} \par
-%D {\ss test \Square \Meter \Per \Second\ ziezo} \par
-%D {\tt test \Square \Meter \Per \Second\ ziezo}
-%D \stoptyping
-
-\newif\ifnesteddimension \nesteddimensionfalse % local switch
-
-\def\dodimensionpower#1%
- {\iftextdimensions\expandafter\high\else\expandafter\normalsuperscript\fi{#1}}
-
-\def\ustartmathmode {\iftextdimensions\else\expandafter\startmathmode \fi}
-\def\ustopmathmode {\iftextdimensions\else\expandafter\stopmathmode \fi}
-\def\umathematicstypeface{\iftextdimensions\else\expandafter\mathematicstypeface\fi}
-
-%D In forced text mode, we ignore spacing in monospaced fonts.
-
-\def\udimensionhalfspace {\dodimensionspace\dimensionhalfspace}
-\def\udimensionbackspace {\dodimensionspace\dimensionbackspace}
-
-\def\dodimensionspace
- {\iftextdimensions
- \begingroup
- \setbox0\hbox{i}%
- \setbox2\hbox{m}%
- \ifdim\wd0=\wd2
- \endgroup
- \@EAEAEA\gobbleoneargument
- \else
- \endgroup
- \fi
- \fi}
-
-\unexpanded\def\dimension#1%
- {\begingroup
- \global\let\savedthedimensionprefix\thedimensionprefix
- \global\let\savedthedimensionpower\thedimensionpower
- \unexpanded\def\dimension##1{\global\nesteddimensiontrue}%
- \let\dimensionprefix\dimension
- \let\dimensionmidfix\dimension
- \let\dimensionsuffix\dimension
- \let\dimensionpower \dimension
- \global\nesteddimensionfalse
- \setbox\scratchbox\hbox{\ustartmathmode#1\ustopmathmode}% pre-roll
- \global\let\thedimensionprefix\savedthedimensionprefix
- \global\let\thedimensionpower \savedthedimensionpower
- \endgroup
- \ifnesteddimension#1\else\dodimension{#1}\fi}
-
-\def\dodimension#1%
- {\dontbreakdimension
- \ifdim\scratchdimen=\zeropoint\relax
- \ifmmode
- \udimensionhalfspace
- \udimensionhalfspace
- \fi
- \ustartmathmode\dimensiontypeface
- \else
- \ustartmathmode\dimensiontypeface
- \ifspaceddimensions
- \ifdim\scratchdimen=\dimensionsignal\relax
- \udimensionhalfspace
- \else\ifdim\scratchdimen=\dimensionpowersignal\relax
- \udimensionhalfspace
- \fi
- \fi
- \fi
- \fi
- \umathematicstypeface\thedimensionprefix#1%
- \ifx\thedimensionpower\empty
- \else\ifsmashdimensionpower
- \setbox\scratchbox=\hbox
- {\iftextdimensions
- \tx\thedimensionpower
- \else
- $\scriptstyle\thedimensionpower$%
- \fi}%
- \ht\scratchbox=\zeropoint
- \dodimensionpower{\box\scratchbox}%
- \else
- \dodimensionpower{\thedimensionpower}%
- \fi\fi
- \ustopmathmode
- % otherwise nobreak before space in 2 \Milli \Meter\ blabla
- \doifnotmode{atpragma}{\nobreak}% this was always \nobreak
- % only test this at pragma
- \ifx\thedimensionpower\empty
- \hskip\dimensionsignal
- \else
- \hskip\dimensionpowersignal
- \fi
- \global\let\thedimensionprefix\empty
- \global\let\thedimensionpower\empty}
-
-%D \macros
-%D {dontbreakdimension,
-%D dimensionprefix, dimensionaddfix,
-%D dimensionnopfix, dimensionmidfix,
-%D dimensionpower}
-%D
-%D Here are some auxilliary macros.
-
-\def\dontbreakdimension
- {\scratchdimen\lastskip
- \unskip
- \nobreak
- \hskip\scratchdimen
- \nobreak}
-
-\def\dimensionprefix#1%
- {\gdef\thedimensionprefix{#1}}
-
-\def\dimensionaddfix#1%
- {\unskip
- %\mathematics{\umathematicstypeface#1}%
- \ustartmathmode\umathematicstypeface#1\ustopmathmode
- \nobreak
- \hskip\dimensionaddfixsignal}
-
-\def\dimensionnopfix#1%
- {\dontbreakdimension
- \ifdim\scratchdimen=\dimensionpowersignal\relax
- \ustartmathmode
- \else
- \ustartmathmode
- \udimensionhalfspace
- \nobreak
- \fi
- \umathematicstypeface#1%
- \ustopmathmode
- \nobreak
- \hskip\dimensionsignal}
-
-\def\dimensionmidfix#1%
- {\dontbreakdimension
- \ifdim\scratchdimen=\dimensionpowersignal\relax
- \ustartmathmode
- \udimensionbackspace
- \nobreak
- \else
- \ustartmathmode
- \fi
- \umathematicstypeface#1%
- \ustopmathmode
- \nobreak
- \hskip\dimensionmidfixsignal}
-
-\def\dimensionpower#1%
- {\gdef\thedimensionpower{#1}}
-
-%D \macros
-%D {SIunits, noSI, doSI}
-%D
-%D Some low level unit switching macros:
-
-\newif\ifSIunits \SIunitstrue
-
-\def\noSI#1{\begingroup\SIunitsfalse#1\endgroup}
-\def\doSI#1{\begingroup\SIunitstrue #1\endgroup}
-
-%D \macros
-%D {Degrees}
-%D
-%D We can fake the degrees symbol with:
-
-\def\Degrees{\dimensionaddfix{\mathematics{\normalsuperscript\circ}}}
-
-%D \macros
-%D {Unit, NoUnit}
-%D
-%D When a dimension has no leading number, we can use \type
-%D {\Unit}, and when no unit is appended, \type {\NoUnit} is
-%D to be used, just to prevent the prefix migrating to the
-%D next occasion.
-
-\def\Unit {\hskip\dimensionsignal}
-\def\NoUnit {\dimension{}}
-
-%D The mechanism described at the top of this module, depends
-%D on several dimensional components, like prefixes:
-
-\def\Atto {\dimensionprefix{a}}
-\def\Femto {\dimensionprefix{f}}
-\def\Pico {\dimensionprefix{p}}
-\def\Nano {\dimensionprefix{n}}
-\def\Micro {\dimensionprefix{\iftextdimensions u\else\mu\fi}}
-\def\Milli {\dimensionprefix{m}}
-\def\Centi {\dimensionprefix{c}}
-\def\Deci {\dimensionprefix{d}} % 10^{01}
-\def\Hecto {\dimensionprefix{h}} % 10^{02}
-\def\Kilo {\dimensionprefix{k}} % 10^{03}
-\def\Mega {\dimensionprefix{M}} % 10^{06}
-\def\Giga {\dimensionprefix{G}} % 10^{09}
-\def\Tera {\dimensionprefix{T}} % 10^{12}
-\def\Peta {\dimensionprefix{P}} % 10^{15}
-\def\Exa {\dimensionprefix{E}} % 10^{18}
-
-%def\Terra {\dimensionprefix{T}} % for old times sake
-
-\def\Kibi {\dimensionprefix{ki}} % 2^{10}
-\def\Mebi {\dimensionprefix{Mi}} % 2^{20}
-\def\Gibi {\dimensionprefix{Gi}} % 2^{30}
-\def\Tebi {\dimensionprefix{Ti}} % 2^{40}
-\def\Pebi {\dimensionprefix{Pi}} % 2^{50}
-
-%D and binary prefixes:
-
-\def\Kibi {\dimensionprefix{Ki}}
-\def\Mebi {\dimensionprefix{Mi}}
-\def\Gibi {\dimensionprefix{Gi}}
-\def\Tebi {\dimensionprefix{Ti}}
-\def\Pebi {\dimensionprefix{Pi}}
-\def\Exbi {\dimensionprefix{Ei}}
-\def\Zebi {\dimensionprefix{Zi}}
-\def\Yobi {\dimensionprefix{Yi}}
-
-%D and operators:
-
-\def\Times {\dimensionnopfix{\iftextdimensions.\else\cdot\fi}}
-\def\Solidus {\dimensionmidfix{/}}
-\def\Per {\dimensionmidfix{/}}
-\def\OutOf {\dimensionnopfix{:}}
-
-%D and suffixes:
-
-\def\Linear {\dimensionpower{1}}
-\def\Square {\dimensionpower{2}}
-\def\Cubic {\dimensionpower{3}}
-
-\def\Inverse {\dimensionpower{-1}}
-\def\ILinear {\dimensionpower{-1}}
-\def\ISquare {\dimensionpower{-2}}
-\def\ICubic {\dimensionpower{-3}}
-
-%D Apart from these components, the units themselves are
-%D defined using the synonym mechanism. First we define some
-%D length and volume related units.
-
-\getvalue{\v!unit} [Meter] {m} {meter}
-\getvalue{\v!unit} [pMeter] {\Pico \Meter} {picometer}
-\getvalue{\v!unit} [nMeter] {\Nano \Meter} {nanometer}
-\getvalue{\v!unit} [uMeter] {\Micro \Meter} {micrometer}
-\getvalue{\v!unit} [mMeter] {\Milli \Meter} {millimeter}
-\getvalue{\v!unit} [cMeter] {\Centi \Meter} {centimeter}
-\getvalue{\v!unit} [dMeter] {\Deci \Meter} {decimeter}
-\getvalue{\v!unit} [hMeter] {\Hecto \Meter} {hectometer}
-\getvalue{\v!unit} [kMeter] {\Kilo \Meter} {kilometer}
-
-%D After some discussion on the \CONTEXT\ mailing list in
-%D february 2002 it was decided to go from L to l for liters
-%D (Karel Wesselings alternative: \mathematics{\ell}).
-
-\getvalue{\v!unit} [Liter] {l} {liter}
-\getvalue{\v!unit} [mLiter] {\Milli \Liter} {milliliter}
-\getvalue{\v!unit} [cLiter] {\Centi \Liter} {centiliter}
-\getvalue{\v!unit} [dLiter] {\Deci \Liter} {deciliter}
-
-%D Next we define time related units (\type {\ifSI} still dutch only).
-
-\getvalue{\v!unit} [Sec] {s} {\labeltext{u:sec}}
-\getvalue{\v!unit} [fSec] {\Femto \Sec} {\labeltext{u:fsec}}
-\getvalue{\v!unit} [pSec] {\Pico \Sec} {\labeltext{u:psec}}
-\getvalue{\v!unit} [nSec] {\Nano \Sec} {\labeltext{u:nsec}}
-\getvalue{\v!unit} [uSec] {\Micro \Sec} {\labeltext{u:usec}}
-\getvalue{\v!unit} [mSec] {\Milli \Sec} {\labeltext{u:msec}}
-\getvalue{\v!unit} [Year] {\ifSIunits a \else j\fi} {\labeltext{u:year}}
-\getvalue{\v!unit} [Month] {m} {\labeltext{u:month}}
-\getvalue{\v!unit} [Week] {w} {\labeltext{u:week}}
-\getvalue{\v!unit} [Day] {d} {\labeltext{u:day}}
-\getvalue{\v!unit} [Hour] {\ifSIunits h \else u\fi} {\labeltext{u:hour}}
-\getvalue{\v!unit} [Min] {min} {\labeltext{u:min}}
-
-\setuplabeltext
- [\s!nl]
- [u:sec=seconde,
- u:psec=picoseconde,
- u:fsec=femtoseconde,
- u:nsec=nanoseconde,
- u:usec=microseconde,
- u:msec=milliseconde,
- u:year=jaar,
- u:month=maand,
- u:week=week,
- u:day=dag,
- u:hour=uur,
- u:min=minuten]
-
-\setuplabeltext
- [\s!en]
- [u:sec=second,
- u:fsec=femtosecond,
- u:psec=picosecond,
- u:nsec=nanosecond,
- u:usec=microsecond,
- u:msec=millisecond,
- u:year=year,
- u:month=month,
- u:week=week,
- u:day=day,
- u:hour=hour,
- u:min=minutes]
-
-\setuplabeltext
- [\s!de]
- [u:sec=Sekunde,
- u:fsec=Femtosekunde,
- u:psec=Picosekunde,
- u:nsec=Nanosekunde,
- u:usec=Microsekunde,
- u:msec=Millisekunde,
- u:year=Jahr,
- u:month=Monat,
- u:week=Woche,
- u:day=Tag,
- u:hour=Stunde,
- u:min=Minuten]
-
-\setuplabeltext
- [\s!hr]
- [u:sec=sekunda,
- u:fsec=femtosekunda,
- u:psec=pikosekunda,
- u:nsec=nanosekunda,
- u:usec=mikrosekunda,
- u:msec=milisekunda,
- u:year=godina,
- u:month=mjesec,
- u:week=tjedan,
- u:day=dan,
- u:hour=sat,
- u:min=minuta]
-
-\setuplabeltext
- [\s!it]
- [u:sec=secondo,
- u:fsec=femtosecondo,
- u:psec=picosecondo,
- u:nsec=nanosecondo,
- u:usec=microsecondo,
- u:msec=millisecondo,
- u:year=anno,
- u:month=mese,
- u:week=settimana,
- u:day=giorno,
- u:hour=ora,
- u:min=minuti]
-
-%D Then we define some angles.
-
-\getvalue{\v!unit} [Rad] {rad} {\labeltext{u:rad}}
-\getvalue{\v!unit} [Deg] {{\mathematics{\normalsuperscript\circ}}} {\labeltext{u:deg}}
-
-\setuplabeltext
- [\s!nl]
- [u:rad=hoek radialen,
- u:deg=hoek graden]
-
-\setuplabeltext
- [\s!en]
- [u:rad=angle radians,
- u:deg=angle degrees]
-
-\setuplabeltext
- [\s!de]
- [u:rad=Bogenma\SS,
- u:deg=Gradma\SS]
-
-\setuplabeltext
- [\s!hr]
- [u:rad=radijani,
- u:deg=kutni stupnjevi]
-
-\setuplabeltext
- [\s!it]
- [u:rad=radianti,
- u:deg=angoli sessagesimali]
-
-%D Rotation and frequency related units are defined by:
-
-\getvalue{\v!unit} [Hertz] {Hz} {Hertz}
-\getvalue{\v!unit} [kHertz] {\Kilo \Hertz} {kilo Hertz}
-\getvalue{\v!unit} [MHertz] {\Mega \Hertz} {mega Hertz}
-\getvalue{\v!unit} [GHertz] {\Giga \Hertz} {giga Hertz}
-\getvalue{\v!unit} [THertz] {\Tera \Hertz} {tera Hertz}
-\getvalue{\v!unit} [mHertz] {\Milli \Hertz} {milli Hertz}
-
-\getvalue{\v!unit} [RevPerSec] {RPS} {\labeltext{u:rps}}
-\getvalue{\v!unit} [RevPerMin] {RPM} {\labeltext{u:rpm}}
-
-\setuplabeltext
- [\s!nl]
- [u:rps=omwentelingen per seconde,
- u:rpm=omwentelingen per minuut]
-
-\setuplabeltext
- [\s!en]
- [u:rps=revolutions per second,
- u:rpm=revolutions per minute]
-
-\setuplabeltext
- [\s!de]
- [u:rps=Umdrehungen pro Sekunde,
- u:rpm=Umdrehungen pro Minute]
-
-\setuplabeltext
- [\s!hr]
- [u:rps=okretaji po sekundi,
- u:rpm=okretaji po minuti]
-
-\setuplabeltext
- [\s!it]
- [u:rps=giri al secondo,
- u:rpm=giri al minuto]
-
-%D Mass and force:
-
-\getvalue{\v!unit} [Gram] {g} {gram}
-\getvalue{\v!unit} [uGram] {\Micro \Gram} {microgram}
-\getvalue{\v!unit} [mGram] {\Milli \Gram} {milligram}
-\getvalue{\v!unit} [kGram] {\Kilo \Gram} {kilogram}
-\getvalue{\v!unit} [Atom] {u} {\labeltext{u:u}}
-
-\getvalue{\v!unit} [Newton] {N} {Newton}
-\getvalue{\v!unit} [kNewton] {\Kilo \Newton} {kilo Newton}
-
-\getvalue{\v!unit} [Pascal] {Pa} {Pascal}
-\getvalue{\v!unit} [mPascal] {\Milli \Pascal} {milli Pascal}
-\getvalue{\v!unit} [kPascal] {\Kilo \Pascal} {kilo Pascal}
-
-\setuplabeltext
- [\s!nl]
- [u:u=atomaire massa eenheid]
-
-\setuplabeltext
- [\s!en]
- [u:u=atom mass unit]
-
-\setuplabeltext
- [\s!de]
- [u:u=Atomare Masseneinheit]
-
-\setuplabeltext
- [\s!hr]
- [u:u=unificirana atomska jedinica mase]
-
-\setuplabeltext
- [\s!it]
- [u:u=unit\`a di massa atomica]
-
-%D Energy units comes in two alternatives:
-
-\getvalue{\v!unit} [Joule] {J} {Joule}
-\getvalue{\v!unit} [mJoule] {\Milli \Joule} {milli Joule}
-\getvalue{\v!unit} [kJoule] {\Kilo \Joule} {kilo Joule}
-\getvalue{\v!unit} [MJoule] {\Mega \Joule} {mega Joule}
-\getvalue{\v!unit} [GJoule] {\Giga \Joule} {giga Joule}
-
-\getvalue{\v!unit} [Watt] {W} {Watt}
-\getvalue{\v!unit} [mWatt] {\Milli \Watt} {milli Watt}
-\getvalue{\v!unit} [kWatt] {\Kilo \Watt} {kilo Watt}
-\getvalue{\v!unit} [MWatt] {\Mega \Watt} {mega Watt}
-\getvalue{\v!unit} [GWatt] {\Giga \Watt} {giga Watt}
-\getvalue{\v!unit} [TWatt] {\Tera \Watt} {tera Watt}
-
-%D Although Celsius is no longer permitted, we define it by
-%D saying:
-
-\getvalue{\v!unit} [Celsius] {C} {Celsius}
-\getvalue{\v!unit} [Kelvin] {K} {Kelvin}
-\getvalue{\v!unit} [Fahrenheit] {F} {Fahrenheit}
-
-%D Some chemic related units are:
-
-\getvalue{\v!unit} [Mol] {mol} {mol}
-\getvalue{\v!unit} [mMol] {\Milli \Mol} {millimol}
-\getvalue{\v!unit} [kMol] {\Kilo \Mol} {kilomol}
-\getvalue{\v!unit} [Molair] {M} {molair (\Mol \Per \Liter)}
-\getvalue{\v!unit} [Equivalent] {eq} {equivalent}
-\getvalue{\v!unit} [mEquivalent] {\Milli \Equivalent} {milli equivalent}
-
-%D There are quite a lot units related to electricity and
-%D magnetism:
-
-\getvalue{\v!unit} [Farad] {F} {Farad}
-\getvalue{\v!unit} [pFarad] {\Pico \Farad} {pico Farad}
-\getvalue{\v!unit} [nFarad] {\Nano \Farad} {nano Farad}
-\getvalue{\v!unit} [uFarad] {\Micro \Farad} {micro Farad}
-\getvalue{\v!unit} [mFarad] {\Milli \Farad} {milli Farad}
-
-\getvalue{\v!unit} [Ohm] {\Omega} {Ohm}
-\getvalue{\v!unit} [kOhm] {\Kilo \Ohm} {kilo Ohm}
-
-\getvalue{\v!unit} [Siemens] {S} {Siemens}
-
-\getvalue{\v!unit} [Ampere] {A} {Amp\`ere}
-\getvalue{\v!unit} [mAmpere] {\Milli \Ampere} {milli Amp\`ere}
-
-\getvalue{\v!unit} [Coulomb] {C} {Coulomb}
-
-\getvalue{\v!unit} [Volt] {V} {Volt}
-\getvalue{\v!unit} [mVolt] {\Milli \Volt} {milli Volt}
-\getvalue{\v!unit} [kVolt] {\Kilo \Volt} {kilo Volt}
-\getvalue{\v!unit} [eVolt] {eV} {electronvolt}
-\getvalue{\v!unit} [keVolt] {\Kilo \eVolt} {kilo electronvolt}
-\getvalue{\v!unit} [MeVolt] {\Mega \eVolt} {mega electronvolt}
-
-\getvalue{\v!unit} [Tesla] {T} {Tesla}
-
-\getvalue{\v!unit} [VoltAC] {V\normalsubscript{\xbox{ac}}} {\labeltext{u:vac}}
-\getvalue{\v!unit} [VoltDC] {V\normalsubscript{\xbox{dc}}} {\labeltext{u:vdc}}
-
-\setuplabeltext
- [\s!nl]
- [u:vac=wisselspanning,
- u:vdc=gelijkspanning]
-
-\setuplabeltext
- [\s!en]
- [u:vac=alternating current,
- u:vdc=direct current]
-
-\setuplabeltext
- [\s!de]
- [u:vac=Wechselspannung,
- u:vdc=Gleichspannung]
-
-\setuplabeltext
- [\s!hr]
- [u:vac=izmjeni\ccaron ni napon,
- u:vdc=istosmjerni napon]
-
-\setuplabeltext
- [\s!it]
- [u:vac=corrente alternata,
- u:vdc=corrente continua]
-
-%D Network bandwidth is specified in Bits:
-
-\getvalue{\v!unit} [Bit] {bit} {\labeltext{u:bit}}
-\getvalue{\v!unit} [Baud] {Bd} {Baud (Bit/s)}
-
-%D Computer memory size is specified in Bytes:
-
-\getvalue{\v!unit} [Byte] {B} {\labeltext{u:byte}}
-\getvalue{\v!unit} [kByte] {\Kilo \Byte} {kilo Byte}
-\getvalue{\v!unit} [MByte] {\Mega \Byte} {mega Byte}
-\getvalue{\v!unit} [GByte] {\Giga \Byte} {giga Byte}
-\getvalue{\v!unit} [TByte] {\Tera \Byte} {tera Byte}
-
-\setuplabeltext
- [\s!en]
- [u:bit=Bit,
- u:byte=Byte]
-
-\setuplabeltext
- [\s!hr]
- [u:bit=bit,
- u:byte=bajt]
-
-%D Telecommunication call density is specified in Erlangs:
-
-\getvalue{\v!unit} [Erlang] {E} {Erlang}
-
-%D Some radiation related units:
-
-\getvalue{\v!unit} [Bequerel] {Bq} {Bequerel}
-\getvalue{\v!unit} [MBequerel] {\Mega \Bequerel} {Bequerel}
-\getvalue{\v!unit} [Sievert] {Sv} {Sievert}
-\getvalue{\v!unit} [mSievert] {\Milli \Sievert} {milli Sievert}
-
-%D Light:
-
-\getvalue{\v!unit} [Candela] {cd} {Candela}
-
-%D and some sound ones:
-
-\getvalue{\v!unit} [Bell] {B} {Bell}
-\getvalue{\v!unit} [dBell] {\Deci \Bell} {decibel}
-
-%D We also define some non||regular, sometimes even forbidden,
-%D units:
-
-\getvalue{\v!unit} [At] {at} {\labeltext{u:at}}
-\getvalue{\v!unit} [Atm] {atm} {\labeltext{u:atm}}
-\getvalue{\v!unit} [Bar] {bar} {bar (100 \Kilo \Pascal)}
-\getvalue{\v!unit} [EVolt] {eV} {electronvolt}
-\getvalue{\v!unit} [Foot] {ft} {\labeltext{u:ft}}
-\getvalue{\v!unit} [Inch] {inch} {\labeltext{u:inch}}
-\getvalue{\v!unit} [Cal] {cal} {\labeltext{u:cal}}
-\getvalue{\v!unit} [Force] {f} {\labeltext{u:f}}
-\getvalue{\v!unit} [kCal] {\Kilo \Cal} {\labeltext{u:kcal}}
-\getvalue{\v!unit} [Lux] {lux} {lux}
-
-
-\def\xPercent {\dimensionaddfix{\percent }}
-\def\xPromille{\dimensionaddfix{\promille}}
-
-\getvalue{\v!unit} [Percent] {\xPercent } {percent}
-\getvalue{\v!unit} [Permille] {\xPromille} {promille}
-\getvalue{\v!unit} [Promille] {\xPromille} {promille}
-
-%D Some more, thanks to Tobias:
-
-\getvalue{\v!unit} [Gray] {Gr} {Gray}
-\getvalue{\v!unit} [Weber] {Wb} {Weber}
-\getvalue{\v!unit} [Henry] {H} {Henry}
-\getvalue{\v!unit} [Sterant] {sr} {Sterant}
-\getvalue{\v!unit} [Angstrom] {\hbox{\Aring}} {\Aring ngstr\"om}
-\getvalue{\v!unit} [Gauss] {G} {Gauss}
-
-\setuplabeltext
- [\s!nl]
- [u:at=technische atmosfeer,
- u:atm=fysische atmosfeer,
- u:ft=voet,
- u:cal=calorie,
- u:f=kracht (force),
- u:kcal=kilocalorie]
-
-\setuplabeltext
- [\s!en]
- [u:at=technical atmospheric pressure,
- u:atm=physical atmospheric pressure,
- u:ft=foot,
- u:inch=inch,
- u:cal=calory,
- u:f=force,
- u:kcal=kilocalory]
-
-\setuplabeltext
- [\s!de]
- [u:at=Technischer atmosph\"arischer Druck,
- u:atm=physkalischer atmosph\"arischer Druck,
- u:ft=Fu\SS,
- u:cal=Kalorien,
- u:f=Force,
- u:kcal=Kilokalorien]
-
-\setuplabeltext
- [\s!hr]
- [u:at=tehni\ccaron ka atmosfera,
- u:atm=standardna atmosfera,
- u:ft=stopa,
- u:inch=in\ccaron a,
- u:cal=kalorija,
- u:f=Force,
- u:kcal=Kilokalorien]
-
-\setuplabeltext
- [\s!it]
- [u:at=pressione atmosferica tecnica,
- u:atm=pressione atmosfera fisica,
- u:ft=piede,
- u:cal=caloria,
- u:f=forza,
- u:kcal=chilocaloria]
-
-%D Here are some old ones, still there for compatibility
-%D reasons. These will probably be obsolete in a few years.
-
-\def\MeterTwee {\Square \Meter}
-\def\mMeterTwee {\Square \Milli \Meter}
-\def\cMeterTwee {\Square \Centi \Meter}
-\def\dMeterTwee {\Square \Deci \Meter}
-\def\kMeterTwee {\Square \Kilo \Meter}
-
-\def\MeterDrie {\Cubic \Meter}
-\def\mMeterDrie {\Cubic \Milli \Meter}
-\def\cMeterDrie {\Kubic \Centi \Meter}
-\def\dMeterDrie {\Cubic \Deci \Meter}
-\def\kMeterDrie {\Cubic \Kilo \Meter}
-
-\def\LiterTwee {\Square \Liter}
-\def\SecTwee {\Square \Sec}
-\def\SecMinEen {\Inverse \Sec}
-
-%D To make ourselves happy, we define some dutch specific
-%D units:
-
-\startinterface dutch
-
- \getvalue{\v!unit} [PaardenKracht] {pk} {paardenkracht}
- \getvalue{\v!unit} [Duits] {D} {duits}
- \getvalue{\v!unit} [Kwik] {Hg} {kwikkolom}
- \getvalue{\v!unit} [Hectare] {ha} {hectare}
- \getvalue{\v!unit} [kGramForce] {\Kilo \Gram \Force} {kilogramforce}
- \getvalue{\v!unit} [kWattUur] {\Kilo \Watt \Uur} {kilowattuur}
- \getvalue{\v!unit} [MeterKwik] {\Meter \Kwik} {meter kwikkolom}
- \getvalue{\v!unit} [Waterkolom] {WK} {waterkolom}
- \getvalue{\v!unit} [MeterWater] {\Meter \Waterkolom} {meter waterkolom}
- \getvalue{\v!unit} [DrogeStof] {ds} {droge stof}
- \getvalue{\v!unit} [Normaal] {N} {normaal}
-
- \getvalue{\v!unit} [Ton] {t} {ton}
- \getvalue{\v!unit} [kTon] {\Kilo \Ton} {kiloton}
-
- \let \OmwPerSec \RevPerSec
- \let \OmwPerMin \RevPerMin
- \let \Graden \Deg
- \let \PaardeKracht \PaardenKracht
- \let \Atoom \Atom
- \let \Heure \Hour
- \let \Jaar \Year
- \let \Maand \Month
- \let \Dag \Day
- \let \Uur \Hour
-
-\stopinterface
-
-%D Finally we define some equivalents. By using \type {\let}
-%D we can be sure that they don't end up double in the lists of
-%D units.
-
-\let \Second \Sec
-\let \Kubic \Cubic
-\let \IKubic \ICubic
-
-%D Option:
-
-% \def\Micro{\dimensionprefix{\iftextdimensions\mathematics\mu \else\mu \fi}}
-% \def\Times{\dimensionnopfix{\iftextdimensions\mathematics\cdot\else\cdot\fi}}
-
-\stopmodule
-
-\protect \endinput