@\ John Winn  ~0B d MbP?"*+_%1 Geneva1 Geneva1 Geneva1 Geneva1 Geneva1  Geneva1 Geneva1 Arial1 Arial1 Arial1 Geneva1 Geneva&?'?(?)?Mz,, o ~ g(HH(dh d@/.Microsoft Office 98[ChemacroDemo.xls]Sheet1# AM287740F6-YZ7@ rh5@Z8@n`6@Z9@K77@Z:@/$59@Z;@w/:@$#Chemacro for 98 and X[Test]Sheet1# AM287840F6-YZ?#0@Z@G?x"@Z@G?x*@Z@$ <1@Z@$ <5@V General00.00#,##0 #,##0.00#,##0_);\(#,##0\)#,##0_);[Red]\(#,##0\)#,##0.00_);\(#,##0.00\)#,##0.00_);[Red]\(#,##0.00\)"$"#,##0_);\("$"#,##0\)"$"#,##0_);[Red]\("$"#,##0\) "$"#,##0.00_);\("$"#,##0.00\)%""$"#,##0.00_);[Red]\("$"#,##0.00\)0%0.00% 0.00E+00 #\ ?/? #\ ??/?? m/d/yy  d\-mmm\-yy d\-mmm mmm\-yy h:mm\ AM/PMh:mm:ss\ AM/PMh:mm h:mm:ss m/d/yy\ h:mm 0.0000000E+000.00000000E+00 0.000000E+000.000 0.00000E+000E+000.000000000E+00 0.0000 0.0000E+00 0.000E+000.0000000000E+00 0.00000 0.000000 ##0.0E+0mm:ss@52_("$"* #,##0_);_("$"* \(#,##0\);_("$"* "-"_);_(@_),)_(* #,##0_);_(* \(#,##0\);_(* "-"_);_(@_)=:_("$"* #,##0.00_);_("$"* \(#,##0.00\);_("$"* "-"??_);_(@_)41_(* #,##0.00_);_(* \(#,##0.00\);_(* "-"??_);_(@_) 1a0, 1afs,  1amu, 1, 1, 1cch,B1cform, 1clite, 1 1 1 1didbump,81dotimes, 8 1e,  1e0, 1el,A1elementF1elmass-s1elsym-s1expon,281expsums-;; 1F, 1factor,81formula,1fval,8 1G, GETAMASS, h,hbar,here, i  ich,"ich1,#indx,8 is, 8ithch, 8 j k  kB, L leftparen, MLin_Fit,Mlupindex Mme,  MMASS, mn,molflag, molmass, mp, mu0, muB, mue,  mun, mup, NA,nareas,nareasQP,ncols,ncolsQP,nrows,nrowsQP, Parseunits,7pindx,#8 -  ptr,@pval,(8 qperr,' qty,> QuickPlot,Ratm,  rightparen, RSI, Ryd, Show_Constants, SIflag, special,8stack-CKTtemp,,> UA,> UB,> UC,> UD,!> UNITS,= UnitsRef,4ustr,8usym,8wsname,#XY#%XYQP#cC C  C  C  C  C C C C C C C C C C C  C  C  C  C  C C C  C  C  C #C  C  C  C  C  C  C  C  C  C  C  C  C #8C "8C  (C  (C  C "8C  (C "8C  (C !<C !<C !<C !8C  (C !8C  (C  (C !!<C "!<C $!<C '!<C  hC  C  Followed Hyperlink  HyperlinkU } n} n} mn} mn} m n}  In} n} In} mn} mn} n} I n} n} In} n} m"n} m n} n} m n} $n} mn} n} !!In} ""$n} ##n} $$In} %% n} &,n} --In} .. n} //$n} 00n} 11n} 22I n} 33n} 44$n} 55m n} 66$n} 777n} 88n} 99$ n} ::In} ;<n} ==6n} >>mn} ?m n} I n} m n} n} n 0l@ah@tET@rOTL@,NaD,Z,tE,,)uA , ,  , ,' ,, *,o,+rE,,@,J ,,,R,,,,J@ @ Chemacro.xla/'<- Filename goes here (variable "here")GETAMASSLin_Fit QuickPlot#$%&'()*+,-014UnitsRef7 Parseunits =UNITS&E'=Universal Physical Constants Reference - 1998 Adjusted Values(5OnOpen C&onstantsShow_Constants>6Show Physical Constants and/or teach them to WorksheetChemacroHelp!1"elementBQ AcS`l@?B?B#$%&'()*+,-./0124 %7c A#7ustr$8BQ 8psi~ ;?"=qty$>BQ>~&@)**6" &Linear FitLin_Fit5-Linear fit to selected adjacent (x,y) columnsChemacroHelp!3/@@C#B@ AgȘZ@8&D $A5$A5B8&D $A5$A5B#Are {a} $a~ %Y@~ &~ '@~ (~ )~ *~ +~ , -Area ."0" /Y 0a 1atto2C]r2<44"D4 $4A5$4A5B#7#Al~ ;!=UA$>BQ>mol*J*K/mol*K*in*ft*m+Quantity+Chemacro +Value +Units2 Loading Chemacro Add-InBz &Quick Plot QuickPlot5-Quick plot of selected adjacent (x,y) columnsChemacroHelp!4,8$Z2@# DB Al F:@C1(The active document must be a Worksheet."vC1(The active document must be a Worksheet."v# Ampere {A} $A~ %?~ &~ '~ (~ )?~ *~ +~ ,-Electric current ."0" /Y 0c 1centi~ 2?(4 lupindexD8 BX#7#CAl~ ;!=UB$>BQ >psi, - Name,,)2@Formula%B&UnitsUnitsRef!Look up units in SI termsChemacroHelp!2$B7 AmX9an@B7B7ChemacroHelp!7~ i@~ r@ # Acre {acre} $acre%ʡE@~ &~ '@~ (~ )~ *~ +~ , -Area."0.000" /Y 0d 1deci~ 2$@/4^*%##C+Bngstrm {} (opt-shift-A)#7#Al8@~ ;=BW.Atomic mass unit .amu0A Aq`: .kg)3@Formula%B ArMbXC@ XY!_BX XYQP!_BX~ @~ 4@~ @Graph Options: #Arcminute {arcmin}$arcmin%WK3?~ &~ '~ (~ )~ *~ +~ ,- Plane angle."0.00000000000E+00" /N 0E 1exa2NgmC/4+%$$C+S(B"7#XAl 8psi~ ;B=0CQANo 2nd argument!B7B.Avogadro constant .NA0b7D.mol^-1)4@Formula%B AsTR@$@#Z AL$@#[ AL~ ?~ Q@~ `m@~ R@ OK #Arcsecond {arcs} $arcs%U>~ &~ '~ (~ )~ *~ +~ ,- Plane angle."0.00000000000E+00" /N 0f 1femto2V瞯</4+%//C+T BYG75CWBs1/  $7A5$ 7A5B~ ;>=,CRA#RUSIAlB. Bohr magneton .muB0bUl&; .J/T)5@Formula%B MMASS AtC?j@$@#ZT AM$@#[U AM~ @~ Q@~ p@~ R@Cancel #Atmosphere {atm} $atm~ %м@~ &?~ '~ (~ )~ *~ +~ ,-Pressure ."0" /Y 0G 1giga2eA04$D4{D4B|BsAl"7# Al~ ;}=kCEAA&CQTsK CQV%C CQW 5F CQWER B%B$ $+=A5B. Bohr radius .a07ҁ= .m $ Al&formula$BQ SF6 Au]Ch@$?#ZV; AK$?#[Ve AK~ *@~ 4@~ >@ Graph data #Astronomical unit {AU} $AU%lmjAB~ &~ '?~ (~ )~ *~ +~ ,-Length. "0.000E+00" /Y 0h 1hecto~ 2Y@4 $D4Al#7##Al~ ;?,=SCsW%`@#>#QW)B.Boltzmann constant .kB/n@ 0; .J/K  $ Al Show_Constants ChemacroHelp!5      % SIflag$ BQ  B Zd;%@4 "C8  $ A5B4 "C9  $ A5B~ *@~ 4@~ K@  Graph fit " #ngstrm {} (opt-shift-A) $ %|=~ &~ '?~ (~ )~ *~ +~ , -Length . "0.0E+00" /Y 0k 1kilo~ 2@@O 4B-=$.C+UJ BN$.C+YY&BNA A 0.0E+00 7$ 7A5~ ;? =-D= 2nd argument error!B7B .Electron magnetic moment .mue 0r&; .J/T  $ Al ?B~ @~ $@~ @% Physical Constants Reference: & molflag$ BQ  Ba X9v*a@9 'Only one area can be selected."v9 'Only one area can be selected."v~ @~ 4@~ Y@~ d@ X #Barn {b} $b %`P:~ &~ '@~ (~ )~ *~ +~ , -Area . "0.0E+00" /Y 0M 1mega~ 2.A/ 4|=%%%C+YrB" 7# VAl 8~ ; = $;D;Al .Electron rest mass .me 007y9 .kg  $ XAl/ D   $ AlB~ ?~ t@~ `l@~ R@ OK  BW Be "3<"@ B7 B7~ @~ 4@~ b@~ d@ Y # Bar {bar} $bar~ %j@~ &?~ '~ (~ )~ *~ +~ , -Pressure ."0" /Y 0m 1milli 2MbP? 4F. D 4D 4A0 1.0E-10# 7##X3Al~ 8@~ ; = $ ;D;Al .Elementary charge .e 7Jv٤< .C  $ YAl  %  A~ .@~ $@~ I@~ x@~ d@  R20C14:R42C14~ ?> ,CMA#M\SIAlB Bh (rp@4 "C:  $A5B4 "C;  $A5B~ @~ 4@~ i@~ d@ [ChemacroDemo.xls]Sheet1! #Barrel, US (42 gal) {bbl} $bbl %Y?~ &~ '@~ (~ )~ *~ +~ , -Volume . "0.000000" /Y 0n 1nano 2& .>L 4:D4N $!D 4Al$!D 4 (Exact)AlB< 7*#$CWUuC#\OAAl 8i~ ; = $ ;D;Al .Faraday constant .F 89vU@ .C/mol "z1 D  $A5 B7B~ @~ t@~ pp@~ R@ Cancel ? -C/A#/^molAlB Bi E_j@K 90The selection must be two adjacent columns wide."vK 90The selection must be two adjacent columns wide."v~ @~ 4@~ T@  X-axis title:  #Becquerel {Bq} $Bq~ %?~ &~ '~ (~ )~ *~ +~ , - Radioactivity ."0" /Y 0P 1peta 24&k C6 4$$&%--C+[BAla 7OC$]*C$_/C$_#^B$ $7A5$7A5B~ ; = $ ;D;Al .Fine structure constant .afs 79'}? .B74"D  $A5$A5B~ *@~ $@~ `m@(  Teach Names to Current Worksheet CM\kg CM`SI CM`% CM`3 B%CM`FparseB$#M`aAl#Ma uAlB Bk?n@B7B7~ @~ 4@~ @`@ Y-axis title: "#British Thermal Unit {Btu} $Btu~ %!@~ &?~ '@~ (~ )~ *~ +~ ,-Energy."0.00" /Y 0p 1pico2-q=4 iB77%#XTKCXaC$_Al~ ;= $ ;D;Al(. Universal gravitational constant .G9 yдW=. N m^2/kg^28&D   $A5$A5B~ @~ $@~ =@ Quantity/Units (Name) rC/^mol C/bMSI C/b^& C/bn4 B%#/b|KAl#/b_AlB Br`"S@4"C<  $A5B4"C=  $A5B~ #@~ "4@~ "f@""" Graph title: $# Bushel {bu} $bu%q ?~ &~ '@~ (~ )~ *~ +~ ,-Volume."0.000000000000E+00" /Y 0T 1tera2mBM4;$,C "N$%C+_#CcS.BNAlJ78C#^CW]A  $G7A5$7A5B= $ ;D;Al#.Universal gas constant (SI) .RSI2Wy @.J/mol K?-$Can only teach names to a worksheet!"v~ #*@~ "$@~ "@p@ " ") "!Print Table of Physical Constants $##0Al[/Ab@ Ch"lxz(@N<3There must be at least three rows in the selection."vL:1There must be at least two rows in the selection."v# Coulomb {C} $C~ %?~ &~ '~ (?~ )?~ *~ +~ ,-Electric charge ."0" /Y 0y 1yocto2W:4A+7#NC$aAl8= $;D;Al$.Universal gas constant (atm) .Ratm1 mȂ?. m^3 atm/mol KOnClose1D  $A5 B7B##IAl~  CaDl D@B7B7+##Celsius degree {C} (=opt-shift-8) $C~ %?~ &~ '~ (~ )~ *~ +~ ,?- Temperature ."0" /Y 0Y 1yotta2yCxD4(@ %4 A47"CXa $7A5B~ 8@X@W=ECRUSI CEVAA&B$CEf.D=B7B.Neutron rest mass .mn0q`: .kg.Formula ConstantsB $ Al##)Al~  CdM\@/Computing Linear Fit"zD2B[Workbook1]Sheet1&#calorie (thermochemical) {cal} $cal%#~j@~ &?~ '@~ (~ )~ *~ +~ ,-Energy."0.000" /Y 0z 1zepto2O ;44"D4 $4A5$4A5B#7#"Al5=#CRfSI  $=A5B.Nuclear magneton .mun0@c٠y: .J/T*FormulaUnitsBJ80Teaching Physical Constants to active Worksheet"z! !Atomic mass unit/kg (amu)*iC A B Ce~ ]@BW)Preparing plot"z#Calorie (kcal) {Cal} $Cal~ %X@~ &?~ '@~ (~ )~ *~ +~ ,-Energy ."0" /Y 0Z 1zetta2PKD4 $8 Al7$7A58@,=@#>X]#Rh)B.Permeability of vacuum .mu0#77>AHz> .N/A^2.Formula Linear FitB IB% Avogadro constant/mol^-1 (NA).l3ChCctA6 CfM-[bo@""-""-,#$calorie (Int'l. Steam Table) {calIT} $calIT%:H@~ &?~ '@~ (~ )~ *~ +~ ,-Energy."0.0000" /Y 0 1micro2ư>4B7^7LCXfW+#"gCXj"%$$B@Al$/7A5B~ 8Q@?=-D= 3rd argument error!B7B.Permittivity of vacuum .e0:70Mvx=(C2CCk .F/m.Formula Quick PlotBL:%CjfB%Cl$)""= Bohr magneton/J/T (muB)N<D) !#IeCIlwAl$A5B ClsA@4B[ChemacroDemo.xls]Sheet1BW# Candela {cd} $cd~ %?~ &~ '~ (~ )~ *?~ +~ ,-Luminous intensity ."0" /Y37!C"k A $&7A5B=}CEfAA&D;D;D ;D;D ;D;D ;D;D ;D;D ;D;D;D;B%B$Inconsistent units!B7B.Planck constant .h0T#} 9 .J/HzB7A Bohr radius/m (a0)$A5 Cm ZH@n@$$ CY Al##DBT #Chain (surveyor) {chain} $chain%=,Ԛ4@~ &~ '?~ (~ )~ *~ +~ ,-Length."0.0000" /Y=7+# %%%C"lBAl~ 8?H=6CEm7AA&CEnD=D=B7B#.Planck constant over two pi .hbar&7=Ǧ8CA .J s"z# Boltzmann constant/J/K (kB)N<D( !#)gEC)oaAl$A5B CoHPswM@725%#ZW BNT/C"2# Cord {cord} $cord% _ @~ &~ '@~ (~ )~ *~ +~ ,-Volume. "0.0000000" /NP7>CXk %$$C"nBAu $7A5B80=#SCQXh>Al>ft>m^1.Proton magnetic moment .mup7dv: .J/T1D  $A5 B7B* "Electron magnetic moment/J/T (mue)$A5 Crm4I@75%#Zo BNP/torr"w# Curie {Ci} $Ci%d:!B~ &~ '~ (~ )~ *~ +~ ,- Radioactivity. "0.0E+00" /Y>7,C   $&7A5$7A5BP=>D;.#SpYCSqkg^D;0A0AlB.Proton rest mass .mp0x`: .kg?-%Printing Table of Physical Constants"z" Electron rest mass/kg (me)mDAy/ ZDAy! Illegal character!B7*Illegal character: D !B7"B Cs9EGr`@P>DA~$AZ B%$ XAl$ $AZAlB"B5 #cm-1 (wavenumber) {cm-1} $cm-1%۠88;~ &?~ '@~ (~ )~ *~ +~ ,-Energy."0.00000000E+00" /N/7#"pC"s)AlO==D ;-#SqCSskm^D ;0A0AlB&.Infinite mass Rydberg constant .Ryd:1rDdA .m^-1 $ Al Elementary charge/C (e)[IDAy: DAy@ B$'Illegal character: D !B7B CuSO@P>DA~$AZ B%$ YAl$ $AZAlB"H# Carat {ct} $ct%-C6*?~ &?~ '~ (~ )~ *~ +~ , -Mass. "0.0E+00" /Y"7# qEAl8O==D ;-#SsvCSts^D ;0A0AlB(. Speed of light in vacuum (exact) 3clite~ 4*yG 3m/sD7B[Workbook1]Sheet1" Faraday constant/C/mol (F)ZHDAy[ DAy` B$&Illegal character:D !B7B Dd@U?!\R#Zp C<b"N#Zu,C<u="NB17?5' S1P1"mChemacroHelp!6 ! # Cup , US {cu} $cu% z/?~ &~ '@~ (~ )~ *~ +~ ,-Volume."0.000000000E+00" /Y7$7A5O==D ;-#StCSvA^D ;0A0AlBC;;Reference: http://physics.nist.gov/cuu/Constants/index.html***!CBg" Fine struct constant (afs)L:DAyz 'Illegal character: D !B7B Db}yap@W(,ə?M/i-?*" T~ @~ "@~ @ Unit name:!#Day (mean solar) {d} $d~ %@~ &~ '~ (?~ )~ *~ +~ , -Time ."0" /Y7}C [15#SSCwCn}*CCRC6Al8#wICxTCw_CCwkAlBP=>D ;.#SvCSxocd^D ;0A0AlB!"7 /Universal gravitational constant/N m^2/kg^2 (G)A Dy~ Pd@'@?9xXab?BO~ @~ 4@~ <@ngstrm!# Debye {D} $D%j9~ &~ '?~ (?~ )?~ *~ +~ ,- Dipole moment."0.00000000E+00" /N{7iC w )$;D;%&&C"s4'BAl,$;D;%&&C"yyPBAlBQ=?D ;/#SxzCSymol^D ;0A0AlB %Bm1 )Universal gas constant (SI)/J/mol K (RSI)<*CIlC)ol  $ A5B Er~ U@HT@@"z~ @~ "@~ I@Symbol:!# Dyne {dyn} $dyn%h㈵>~ &?~ '?~ (~ )~ *~ +~ , -Force."0E+00" /Y{7iC y[ )$;D;%''C"y'BAl,$;D;%''C"{PBAlBO==D;-#SyCS{K^D;0A0AlB"9 1Universal gas constant (atm)/m^3 atm/mol K (Ratm)/Unbalanced parentheses!B7 Es,zo@R2'4@ vWz?BW~ @~ 4@~ R@ !# Erg {erg} $erg%Hz>~ &?~ '@~ (~ )~ *~ +~ ,-Energy."0E+00" /Y{7iC z )$;D;%((C"{<'BAl,$;D;%((C"|PBAlBc=QCS{CQpd> -#S|%CS}0 dimensionlessAlB ?lA!?ED"?OB#? $? DA%?&?ED'?(?AE)?*? +?G,?-?.?[ /?_O0>jEB1>12>k@3>b J4>F5>N6>7>8>9>:>;><>|=>w@ >>=?>< *???"! Neutron rest mass/kg (mn)" #Al (S)1(F)6 Eu +b@B 0DADAB$ $!A5$#A5B "m~ @~ "@~ @X@ Conversion factor: ! #Electron volt {eV} $eV %Jv٤<~ &?~ '@~ (~ )~ *~ +~ , -Energy ."0.000000000E+00" /N{ 7iC |y )$;D;%))C"|'BAl,$;D;%))C"~SPBAlB= =+CRiSI #S}"B7B(!""! Nuclear magneton/J/T (mun)*!iCj[ A B !F!8$Z2@M!;2Slope & intercept not found. Check your selection."v!BT~ !@~ !4@~ !^@!1.0E-10 (Exact)!!!# Farad {F} !$F~ !%?~ !&~ !'~ !(@~ !)@~ !*~ !+~ !,!- Capacitance !."0" !/Y{!7iC ~5 )$;D;%**C"~|'BAl,$;D;%**C"PBAlB5!=##T; CR~>Al!> ; in>m^1!""*" "Permeability of vacuum/N A^2 (mu0)<"*# C+Cl=AAl "6 "Fe~ "е@"<$wA5"B7~ "@~ ""@~ "a@"SI equivalent units:"!."#&Fahrenheit degree {F} (=opt-shift-8) "$F"%vq?~ "&~ "'~ "(~ ")~ "*~ "+~ ",?"- Temperature"."0.00000000000" "/N{"7iC  )$;D;%++C"'BAl,$;D;%++C"MPBAlBP"=>D;.#TICTkg^D;0A0AlB#D"g'# Permittivity of vacuum/F/m (e0)f#TCCA 2#!#C..C#9AAlB# #Fm#np@7#%DA $$A5$&A5B~ #@~ #O@~ #`e@ #m#!## Fathom {fath} #$fath#%B?~ #&~ #'?~ #(~ #)~ #*~ #+~ #,#-Length#."0.0000" #/Y{#7iC / )$;D;%,,C"v'BAl,$;D;%,,C"PBAlB#8*O#==D;-#TCT[m^D;0A0AlB$"z $ Planck constant/J/Hz (h)H$6CWCLA #!A#AlB $Fr$ݴk@J$8/Slope couldn't be calculated. Check your data."v~ $@~ $4@~ $`e@ $kg$!$#Foot (board foot) {fbm} $$fbm$%ɛoETc?~ $&~ $'@~ $(~ $)~ $*~ $+~ $,$-Volume$."0.000000000E+00" $/N"$7# tAlO$==D;-#TfCTs^D;0A0AlB%B7.% &Planck constant over two pi/J s (hbar)?%-C )  $&A5$+A5B %Ga%ʡEnQ@%<$wA5~ %@~ %"@~ %@h@3%+Physical quantity represented by this unit:%!%#Footcandle {fc} %$fc%%!D%@~ %&~ %'~ %(~ %)~ %*?~ %+~ %,%- Luminance%."0.0000000000" %/N%7$/7A5O%==D;-#TCTA^D;0A0AlB(&  Proton magnetic moment/J/T (mup)X&FC! C!( C!") B%A& $)A5B &Gd~ &c@7&%DA $'A5$)A5B~ &@~ &4@~ & k@&Length&!&# Fermi {fermi} &$fermi&%V瞯<~ &&~ &'?~ &(~ &)~ &*~ &+~ &,&-Length&."0E+00" &/Y=&7+#?CXpBs%00B@Al~ &8@P&=>D;.#TCTcd^D;0A0AlB ' Proton rest mass/kg (mp)0'#}C )1Al 'Ge~ ']@M';2Intercept couldn't be calculated. Check your data."v 'qperr~ '?~ '`l@~ 'n@~ 'R@ 'Done'!'#Footlambert {flam} '$flam'%h @~ '&~ ''~ '(~ ')~ '*?~ '+~ ','- Luminance'."0.00000000000" '/N>'7,C?sA B7$(7A5BQ'=?D;/#TCTmol^D;0A0AlB1( )Infinite mass Rydberg constant/m^-1 (Ryd)($>A5 (H(H ?(<$wA5(BW~ (@~ (W@~ (`e@ (s(!((# Foot (international and US) {ft} ($ft(%ׁ?~ (&~ ('?~ ((~ ()~ (*~ (+~ (,(-Length(."0.0000" (/YT(7BCX~ Bs%00C?BAu $+7A5B~ (8?O(==D;-#TCTK^D;0A0AlB,) %$Speed of light in vacuum/m/s (clite)7)%#CAC Al )He)C@S)ABest fit parameters:#ZuC<u*"NB`H)6-Couldn't complete plot! Check your selection."v~ )@~ )_@~ )`e@ )A)!$)#Foot (US survey foot) {ftUS} )$ftUS)%`jځ?~ )&~ )'?~ )(~ ))~ )*~ )+~ ),)-Length)."0.000000000000" )/N/)7#?C?'Alh)=VCT; CRX> -#T]*CT5 dimensionlessAlB*$>A5 *Hf~ *An@I*7Slope:#ZC<"NB`*BT~ *@~ * d@~ *`e@ *cd*!*#Furlong {furl} *$furl*%L7A`%i@~ *&~ *'?~ *(~ *)~ **~ *+~ *,*-Length*."0.000" */YP*7>%00C?2BA B7$(7A5B~ *8?-*=CS~CTB7R+@C W( )#LC#C .AlB +Hg~ +@M+; Intercept:#ZC< "NB`+B6~ +@~ +`i@~ +`e@ +mol+!+#Gram {g} +$g+%MbP?~ +&?~ +'~ +(~ +)~ +*~ ++~ +, +-Mass+."0.000" +/YI+77#Cx3 CC%22C?d&BAl~ +8??+=-CRlSI #RKAlBP,>C AyA C AAyZ B$A& $4A5B ,Ho,r.ŝd@Y,G95% confidence errors:#ZK!C<V,"NB`~ ,@~ ,`o@~ ,`e@ ,K,!,# Gauss {G} ,$G,%-C6?~ ,&?~ ,'~ ,(~ ,)~ ,*~ ,+~ ,,,-Magnetic flux density,."0.0000" ,/YA,7/#XCXCXA BtAlF,=4CQ}K #PCEn#AlB,>}v@;-)#C(C SAl -Hs-"p@M-; For slope:#ZC< "NB`~ -@~ -D@~ -d@~ --!.-#&Gravity, Standard acceleration of {ga} -$ga-%:#@~ -&~ -'?~ -(~ -)~ -*~ -+~ -,-- Acceleration-. "0.00000" -/Y"-7# aAlQ-=?CQ?C '#PRfffffq@CE]-AlBJ.8CCA  $/A5$1A5B .I.#_@Q.?For intercept:#ZC<$"NB`~ .@~ .R@~ .d@~ .?.!.#Gallon, US {gal} .$gal.% zo?~ .&~ .'@~ .(~ .)~ .*~ .+~ .,.-Volume.."0.000000000E+00" ./Y.7$7A5_.=MCQIF 5#P]fffffq@CEq-  AlB0/#C)1Al /In/1Z\@e/S"Std. error = 95% error/Student's t#Z-C<8"NB`~ /@~ /Y@~ /d@~ //!/#Gallon, Canadian {galC} /$galC/%r?~ /&~ /'@~ /(~ /)~ /*~ /+~ /,/-Volume/. "0.00000E+00" //Y3/7!CNeE  $G7A5BQ/=?CQiR '#P}?CE-AlB0$>A5 0Ir0mh@O0= Student's t:#Z-C<8""NB`~ 0@~ 0 a@~ 0d@~ 00!0#Gallon, UK {galUK} 0$galUK0%oGr?~ 0&~ 0'@~ 0(~ 0)~ 0*~ 0+~ 0,0-Volume0."0.000000E+00" 0/N?07-CNq/  $17A5$37A5B<0=*CRK #PB7Bd1RC!AyA C!AyZ B$"#1C-<)1AlB 1K11*C@Y1GStd. deviation of fit:#Z5!C<@, "NB`~ 1@~ 1@f@~ 1d@~ 11!1#Gram-force {gf} 1$gf1%pC Aya C Ayz B$A& $=A5B 4Li4$@E43D#Z C<"NB`~ 4#@~ 4"^@~ 4"n@~ 4"T@4"4"Another4 "4!$4# Gray {Gy} 4$Gy~ 4%?~ 4&~ 4'@~ 4(~ 4)~ 4*~ 4+~ 4,4- Absorbed dose 4."0" 4/YN47<C#cCWcA   $57A5B7B~ 48@75%#C{C Al 5Lr59dAp@E53D#Z C<"NB`5#Hour (mean solar) {h} 5$h~ 5% @~ 5&~ 5'~ 5(?~ 5)~ 5*~ 5+~ 5, 5-Time 5."0" 5/Y@57.#CW2C#'AAl~ 58@J68CCA  $7A5$9A5B 6Lu6me@"6Hu @?DAL6# Henry {H} 6$H~ 6%?~ 6&?~ 6'@~ 6(~ 6)~ 6*~ 6+~ 6,6- Inductance 6."0" 6/Y?67-C1  $A7A5$77A5B07#C )1Al 7Md7"!p@E73D#Z C< "NB`7ChemacroHelp!6777777 7! 7# Hectare {ha} 7$ha~ 7%@~ 7&~ 7'@~ 7(~ 7)~ 7*~ 7+~ 7, 7-Area 7."0" 7/YR77@C2 C9 B$ $87A5B7B8$>A5 8Mg~ 8@E83D6#ZG C<R"NB`~ 8.@~ 8"@~ 8@@~ 8s@~ 8h@8 R3C36:R132C36~ 8 ?8!8#Horsepower {hp} 8$hp~ 8%4@~ 8&?~ 8'@~ 8(~ 8)~ 8*~ 8+~ 8, 8-Power 8."0.0" 8/N287 #COA!AlM9;C!tAya C!Ayz B$ $>A5B 9Mn9ӅXxK@J98D6D#Z C<"NB`~ 9@~ 9"@~ 9 @9Unit name {symbol}:9!9# Hertz {Hz} 9$Hz~ 9%?~ 9&~ 9'~ 9(~ 9)~ 9*~ 9+~ 9,9- Frequency 9."0" 9/Y97C B#xC:Cx'*CC5CZBAlF#EVC|aCPlCC[wChAlB]:KC!0 C!9 B$!#+C6)AlB :Mo~ :@J:8D6D#ZC<"NB`~ :@~ :`t@~ : @:Prefix Powers of 10::!:# Inch {in} :$in:% F%u?~ :&~ :'?~ :(~ :)~ :*~ :+~ :,:-Length:."0.0000" :/Y:7C + 5$;D;C %&&C"2BAl8$;D;CU%&&C"gBAlB^;LC!) C!)( B%"# +CO6)1AlB ;Mt;)3p@=;7@+#ZL C<W"NB~ ;@~ ;`u@~ ;?@ ;Y;! ;#Inches of mercury {inHg} ;$inHg;%xt@~ ;&?~ ;'~ ;(~ ;)~ ;*~ ;+~ ;,;-Pressure;. "0.00000000" ;/N;7C 5$;D;C %''C"2BAl8$;D;CU%''C"gBAlBd<RC!8AyA C!kAyZ B$"#Z1C<)1AlB <N<l&ls,@=<;@+#Z C<"NB~ <@~ <`u@~ <K@ <Z<!<#Inches of water {inH2O} <$inH2O~ <%M@~ <&?~ <'~ <(~ <)~ <*~ <+~ <,<-Pressure<."0.00" </N<7C 5$;D;C! %((C"32BAl8$;D;C4U%((C"FgBAlBe=SC 0 C 9 B$)#+C6C AAlB =Na=ڏa6@="z~ =@~ =`u@~ =@S@ =E=!=# Joule {J} =$J~ =%?~ =&?~ ='@~ =(~ =)~ =*~ =+~ =,=-Energy =."0" =/Y=7C  5$;D;Ci %))C"{2BAl8$;D;CXU%))C"jgBAlB>A >Nb>oB!:W@!>#Z"m~ >@~ >`u@~ >Y@ >P>!># Kelvin {K} >$K~ >%?~ >&~ >'~ >(~ >)~ >*~ >+~ >,?>- Temperature >."0" >/Y>7C A 5$;D;C %**C"2BAl8$;D;C6U%**C"HgBAlB@?.CMaparse #B7B ?Nd~ ?,@?BW~ ?@~ ?`u@~ ?^@ ?T?!?# Knot {knot} ?$knot?%2Tv?~ ?&~ ?'?~ ?(~ ?)~ ?*~ ?+~ ?, ?-Speed?. "0.000000000" ?/N?7C  5$;D;Ck %++C"}2BAl8$;D;C4U%++C"FgBAlB@8lAA8+DEB8BOC8=D8ADE8F8DEG8H8EAI8J8x K8L8M8N8 O8OP0zBEQ0bR0@S0J T0U0V0W0X0Y0yZ0[0\0]0 @^0_0f#@#BAl~ @ @Ne@Y.4@@@ % A~ @@~ @`u@~ @@b@ @G@! @#Kilometer per hour {kph} @$kph@%dq?~ @&~ @'?~ @(~ @)~ @*~ @+~ @, @-Speed@. "0.000000000" @/N@7C  5$;D;Ci %,,C"{2BAl8$;D;CU%,,C",gBAlB"A#Al AF ANiATXM@4A<"D@ $BA5$wA5B~ A@~ A`u@~ A e@ AMA!A# Liter {L} A$LA%MbP?~ A&~ A'@~ A(~ A)~ A*~ A+~ A,A-VolumeA."0.000" A/Y/A7##C#Al#B#OAl B6 BNoBqi1p@<B<*$ $ B% $CA5$wA5B~ B@~ B`u@~ Bh@ BkB!B# Lambert {lam} B$lamB%?2ި@~ B&~ B'~ B(~ B)~ B*?~ B+~ B,B- LuminanceB. "0.00000000" B/NB7|CWA C# OCW#C#.A/ # KAl$D7A5"$D7A5B*CiC A BC[/Ab@ CNpC 2m@*CPreparing graph"z~ C@~ C`u@~ Cj@ ChC!C#Pound mass {lb} C$lbC%Q^J?~ C&?~ C'~ C(~ C)~ C*~ C+~ C, C-MassC. "0.00000000" C/Y/C7##C#Al<D*#C7CKAAl~ D DOD>W[/@DBW~ D@~ Dv@~ D?@~ D8@D!D#Pound force {lbf} D$lbfD%םk@~ D&?~ D'?~ D(~ D)~ D*~ D+~ D, D-ForceD."0.0000000000000" D/Y"D7#NAl4E"C( $mA5B~ E EOs~ E@E"2~ E@~ Ev@~ EK@~ E5@E!E# Lumen {lm} E$lm~ E%?~ E&~ E'~ E(~ E)~ E*?~ E+~ E,E-Luminance flux E."0" E/Y"E7#X AlIF7CCA( $JA5B~ F FPFfH>@F"w~ F@~ Fv@~ F@S@~ F2@F!F#Lux {lx} F$lx~ F%?~ F&~ F'~ F(~ F)~ F*?~ F+~ F,F- Illuminance F."0" F/Y#F7#CAl/G#BCBgAl~ G GPaGR%l@=G<+D B5$KA5B~ G@~ Gv@~ GY@~ G.@G!G#Light year {lyr} G$lyrG%&@C~ G&~ G'?~ G(~ G)~ G*~ G+~ G,G-LengthG. "0.00000E+00" G/Y/G7##C#AlH$mA5~ H HPb~ H<@H"H~ H@~ Hv@~ H^@~ H(@H!H# Meter {m} H$m~ H%?~ H&~ H'?~ H(~ H)~ H*~ H+~ H,H-Length H."0" H/YJH78C#CWA  $I7A5$ 7A5B~ I IPd~ I@I S1P1"m~ I@~ Iv@~ I@b@~ I"@I!I# Molar {M} I$M~ I%@@~ I&~ I'~ I(~ I)~ I*~ I+?~ I,I- Concentration I."0" I/Y!I7#B7"J#Al~ J JPmJ05b@*J" T~ J@~ Jv@~ J e@~ J@J!J# Mho {mho} J$mho~ J%?~ J&~ J'~ J(@~ J)@~ J*~ J+~ J,J-Electrical conductance J."0" J/Y6K$jCCA B~ K KPoKnoj@4K<"D  $LA5$nA5B~ K@~ Kv@~ Kh@~ K@K! K#Mile, international {mi} K$miK%L7A`%@~ K&~ K'?~ K(~ K)~ K*~ K+~ K,K-LengthK."0.000" K/Y5L#$LC[ C%AAl L) LPrLFx a@LFB[Chart3]Chart1~ L@~ Lv@~ Lj@~ L@L!L# Mil {mil} L$milL%5B>~ L&~ L'?~ L(~ L)~ L*~ L+~ L,L-LengthL. "0.00E+00" L/YDM2DL)"#C'DLAlB MPt~ M @!MCvBg~ M@~ Mz@~ M?@ MdM!!M#Minute (mean solar) {min} M$min~ M%N@~ M&~ M'~ M(?~ M)~ M*~ M+~ M, M-Time M."0" M/Y8N&DL)  $OA5$PA5B NPuN n@N< %;<"m~ N@~ Nz@~ NK@ NcN!N#Mile, US statute {miUS} N$miUSN%L7A`%@~ N&~ N'?~ N(~ N)~ N*~ N+~ N,N-LengthN."0.000" N/YOA ORaO @l@O"2~ O@~ Oz@~ O@S@ OmO!$O#Millimeter of mercury {mmHg} O$mmHgO%%iP`@~ O&?~ O'~ O(~ O)~ O*~ O+~ O,O-PressureO. "0.000000000" O/NPA PRbPgDio]U@!PCYn)"g~ P@~ Pz@~ PY@ PP!P# Mole {mol} P$mol~ P%?~ P&~ P'~ P(~ P)~ P*~ P+?~ P,P-Amount P."0" P/Y(Q iC% BX QReQvFg@AQ/#Z C< "NBm~ Q@~ Qz@~ Q^@ QnQ!Q#Molecule (1/NA) {molec} Q$molecQ% zuK;~ Q&~ Q'~ Q(~ Q)~ Q*~ Q+?~ Q,Q-EntityQ."0.0000000E+00" Q/NR $RAl R6 RRfRp1Qp@ R"5R2Q4@~ R@~ Rz@~ R@b@ RpR!R#Miles per hour {mph} R$mphR%>M?~ R&~ R'?~ R(~ R)~ R*~ R+~ R, R-SpeedR. "0.00000" R/N6S$kC%rCA B SRhSˡEY@USCData for Fit plot:#ZC<( "NB`S9#:@~ S@~ Sz@~ S e@ SfS!S# Newton {N} S$N~ S%?~ S&?~ S'?~ S(~ S)~ S*~ S+~ S, S-Force S."0" S/Y5T#$TC; C&AAl T6 TRnTuk@5T=##Z} "N"m~ T@~ Tz@~ Th@ TaT!T#Nautical mile {nmi} T$nmi~ T%@~ T&~ T'?~ T(~ T)~ T*~ T+~ T,T-Length T."0" T/YBU0DT)DT(B$$RDRDTAlB URu~ U@U="2~ U@~ Uz@~ Uj@ UzU!U# Ohm {ohm} U$ohm~ U%?~ U&?~ U'@~ U(~ U)~ U*~ U+~ U,U-Electrical resistance U."0" U/YDV2DT) DT( B% $WA5$XA5B VSV r@@AV/#Z C< "NBm~ V@~ Vz@~ Vm@ VyV!V# Ounce {oz} V$ozV%Q^J?~ V&?~ V'~ V(~ V)~ V*~ V+~ V, V-MassV."0.0000000000E+00" V/YWA WSb~ W@ W"5~ W@~ W|@~ W?@~ WW!W#Ounce, US fluid {ozfl} W$ozflW% z>~ W&~ W'@~ W(~ W)~ W*~ W+~ W,W-VolumeW."0.00000000000E+00" W/YXA XScXEB[zF@"X"-~ X@~ X|@~ XK@~ XX!X#Ounce Troy {ozt} X$oztX%qٟ?~ X&?~ X'~ X(~ X)~ X*~ X+~ X, X-MassX."0.00000000E+00" X/Y3Y!$Y# #2BAlY8$Z2@ YSe~ Yؾ@'Y<$RDD;DAl~ Y@~ Y|@~ Y@S@~ YY!Y#Ounce, UK fluid {ozUK} Y$ozUKY%0s~>~ Y&~ Y'@~ Y(~ Y)~ Y*~ Y+~ Y,Y-VolumeY."0.0000000E+00" Y/NJZ8DYA)Symbol error: C  !B7B ZSgZ:qp@'Z<$SDD<DAl~ Z@~ Z|@~ ZY@~ ZZ!Z# Poise {P} Z$P~ Z%$@~ Z&?~ Z'~ Z(~ Z)~ Z*~ Z+~ Z,Z-Dynamic viscosity Z."0.0" Z/Yi[W#O1 CBr"N#O,CB7BNDYDRAl [Si[S<@![CeBg~ [@~ [|@~ [^@~ ["[![# Pascal {Pa} [$Pa~ [%?~ [&?~ ['~ [(~ [)~ [*~ [+~ [,[-Pressure [."0" [/Y?\-CLCA  $mA5B \Sm~ \^@\< %RS"m~ \@~ \|@~ \@b@~ \(\!\# Parsec {pc} \$pc\%&h[C~ \&~ \'?~ \(~ \)~ \*~ \+~ \,\-Length\. "0.00000E+00" \/YE]3C>C&A) $mA5B ]Sn~ ]/@]"2~ ]@~ ]|@~ ] e@~ ].]!]# Poundal {pdl} ]$pdl]%ǝV?~ ]&?~ ]'?~ ](~ ])~ ]*~ ]+~ ], ]-Force]."0.000000000000" ]/Y^ $RAl ^Sr~ ^@!^CYC"g~ ^@~ ^|@~ ^h@~ ^2^!^# Phot {ph} ^$ph~ ^%@~ ^&~ ^'~ ^(~ ^)~ ^*?~ ^+~ ^,^- Luminance ^."0" ^/Y6_$LC&CA B _T_2p @A_/#Z C< "NBm~ _@~ _|@~ _j@~ _5_!_# Pica {pica} _$pica_%̘BcFq?~ _&~ _'?~ _(~ _)~ _*~ _+~ _,_-Length_."0.0000000E+00" _/Y`0lAa0EDb0OBc0d0DAe0;f0lEDg0h0AEi0Pj0< k0l0Dm0Hn0W o02Op0ZEBq0Lr0w@s0c Jt0u0v0w0x0y0z0{0|0}0@ ~005`#$`Ca C(AAl `5 `Ta`|a2Uf@ `"5~ `@~ `|@~ `m@~ `8`!`# Peck {pk} `$pk`%q ?~ `&~ `'@~ `(~ `)~ `*~ `+~ `,`-Volume`."0.00000000000E+00" `/YDa2D`) D`( B% $bA5$cA5B aTbaȵbc@5a##Z "N"m~ a@~ as@~ am@a( = option-m)a!a# Point {point} a$pointa%XX7?~ a&~ a'?~ a(~ a)~ a*~ a+~ a,a-Lengtha."0.000000E+00" a/YbA bTcbYX@b"2~ b?~ b4@~ bl@~ bT@bLook Upb! b#Pounds per sq. in. {psi} b$psib%@~ b&?~ b'~ b(~ b)~ b*~ b+~ b,b-Pressureb. "0.00000000" b/N"c$RDRD`Al cTe~ c@Ac/#Z C< "NBm~ c#@~ c"^@~ c"l@~ c"R@c"c"Cancelc "c!$c# Pint {pt} c$ptc% z??~ c&~ c'@~ c(~ c)~ c*~ c+~ c,c-Volumec."0.00000000E+00" c/YdA dThdH}8m@ d"5d#Quart, US liquid {qt} d$qtd%O?~ d&~ d'@~ d(~ d)~ d*~ d+~ d,d-Volumed."0.00000000E+00" d/N9e'$eC C(AAle eTie"G@"e"-e# Roentgen {R} e$Re%{0?~ e&~ e'~ e(?~ e)?~ e*~ e+~ e,e-Radiation exposuree. "0.00000E+00" e/YdfR#O CB"NDR#O0CB;BNAl fTlfё\Ci@Af/#Z C<* "NBm+f##Rankine degree {R} (=opt-shift-8) f$Rf%vq?~ f&~ f'~ f(~ f)~ f*~ f+~ f,?f- Temperaturef."0.00000000000" f/Ngy#O8 CBC"N#O0CB;BN#OSCB^BNAl gTmg^ e@g"2g# Radian {rad} g$rad~ g%?~ g&~ g'~ g(~ g)~ g*~ g+~ g,g- Plane angle g."0" g/Y?h-#O CB"NAl hUhW[m@!h#Z{"mh#Rod {rd} h$rdh%=,Ԛ@~ h&~ h'?~ h(~ h)~ h*~ h+~ h,h-Lengthh."0.0000" h/Y/i#B|CBAl iUub~ iPq@i<DLBgi# Rem {rem} i$rem~ i%?~ i&~ i'@~ i(~ i)~ i*~ i+~ i,i-Dose equivalenti."0.00" i/YjC(CA nC@'C(12A0 CSKC(^VA9 B$ $kA5$mA5"$mA5B jUun~ jp@"jB5j# Rydberg {Ry} j$Ryj%$D<~ j&?~ j'@~ j(~ j)~ j*~ j+~ j,j-Energyj."0.000000000000E+00" j/N(k kC( BX kUuq~ kr@,kD A& "HBk#Second (ephemeris) {s} k$s~ k%?~ k&~ k'~ k(?~ k)~ k*~ k+~ k, k-Time k."0" k/Yl$^A5 lUuu~ lq@:l(D S2P1"mS1P1"mBl# Siemens {S} l$S~ l%?~ l&~ l'~ l(@~ l)@~ l*~ l+~ l,l-Electric conductance l."0" l/YmA mVmnxI@VmDD " T" TBm# Stilb {sb} m$sb~ m%@~ m&~ m'~ m(~ m)~ m*?~ m+~ m,m- Luminance m."0" m/Y$n#0dYDCAl nW~ n@n"Pn# Slug {slug} n$slugn%p 0-@~ n&?~ n'~ n(~ n)~ n*~ n+~ n, n-Massn."0.0000000000" n/NQo?#M#/bB$MbP?C0I,B7B oXe~ o@oD "`o#Steradian {sr} o$sr~ o%?~ o&~ o'~ o(~ o)~ o*~ o+~ o,o- Solid angle o."0" o/YJp8CMA&#/B$#0&B7B pYp9EGr9V@p"Pp# Stere {st} p$st~ p%?~ p&~ p'@~ p(~ p)~ p*~ p+~ p,p-Volume p."0" p/Y`qN#M C/A&B$)MbP?C0,/C7;B7B qYb~ q@qD "`q# Stokes {St} q$Stq%-C6?~ q&~ q'@~ q(~ q)~ q*~ q+~ q,q-Kinematic viscosityq."0.0000" q/YYrGCM{A&C/A&B$C0)C74B7B rZn~ r@r"Pr# Sievert {Sv} r$Sv~ r%?~ r&~ r'@~ r(~ r)~ r*~ r+~ r,r-Dose equivalent r."0" r/Y sZrsuVV@&s"Ys#Ton, metric (1 Mg) {t} s$t~ s%@@~ s&?~ s'~ s(~ s)~ s*~ s+~ s, s-Mass s."0" s/YtD "`t# Tesla {T} t$T~ t%?~ t&?~ t'~ t(~ t)~ t*~ t+~ t,t-Magnetic flux density t."0" t/YuBOu#Tablespoon {tbsp} u$tbspu% z>~ u&~ u'@~ u(~ u)~ u*~ u+~ u,u-Volumeu."0.000000000000E+00" u/Yv"mv#Thermal unit {therm} v$therm~ v%B'~ v&?~ v'@~ v(~ v)~ v*~ v+~ v,v-Energyv. "0.00000E+00" v/NwBW+w##Ton of TNT, energy equivalent {TNT} w$TNTw%@JA~ w&?~ w'@~ w(~ w)~ w*~ w+~ w,w-Energyw. "0.0E+00" w/Nx"z!x#Ton short (2000 lb) {ton} x$tonx%XzY@~ x&?~ x'~ x(~ x)~ x*~ x+~ x, x-Massx. "0.00000" x/YyB7y#Ton, long {tonUK} y$tonUKy%(`@~ y&?~ y'~ y(~ y)~ y*~ y+~ y, y-Massy. "0.0000000" y/Yz# Torr {torr} z$torrz%.P`@~ z&?~ z'~ z(~ z)~ z*~ z+~ z,z-Pressurez. "0.000000000" z/N{#Teaspoon {tsp} {$tsp{%ͳc>~ {&~ {'@~ {(~ {)~ {*~ {+~ {,{-Volume{."0.00000000000E+00" {/Y|#Unified atomic mass {u} |$u|%A Aq`:~ |&?~ |'~ |(~ |)~ |*~ |+~ |, |-Mass|."0.00000000E+00" |/N}#Volt {V} }$V~ }%?~ }&?~ }'@~ }(~ })~ }*~ }+~ },}-Electric potential }."0" }/Y~#Watt {W} ~$W~ ~%?~ ~&?~ ~'@~ ~(~ ~)~ ~*~ ~+~ ~, ~-Power ~."0" ~/Y# Weber {Wb} $Wb~ %?~ &?~ '@~ (~ )~ *~ +~ ,- Magnetic flux ."0" /Y#0<A#0DE#0BO#0# Watthour {Wh} $Wh~ %@wKA~ &?~ '@~ (~ )~ *~ +~ ,-Energy ."0" /Y# Yard {yd} $yd%B?~ &~ '?~ (~ )~ *~ +~ ,-Length."0.0000" /Y#Year (calendar) {yr} $yr~ %8~A~ &~ '~ (?~ )~ *~ +~ , -Time ."0" /Y)#!Degree of angle {} (opt-shift-8) $%zlRFߑ?~ &~ '~ (~ )~ *~ +~ , -Angle."0.00000000000" /N= 0C,> "