4Misc_Start2#4Platform@9VersionCheck xHH@Re(HHdh xHH%.7@gyHHdh x HH%.7@gyHHdh ^Graph*eWDashSettings#  !4 4 4 4 4 4 khome77dC:Users:Stephan:Desktop:RecentWindowsLGraph0:SRangeTot vs UTD;...Notebook0Table0:UTD,SRangeTot,Doppler,Doppler2 4Misc_End2#4XOPState_Start2#4XOPState_End2#\wDcr@I •NewNotebook/F=1/N=Notebook0 •Edit •CalculateDoppler() •Graph0() •AppendToTable Doppler2 •CalculateDoppler() fit_SRangeTot= poly(W_coef,x-W_fitConstants[0]) W_coef={991.25,-1.4249,5.389} W_fitConstants={3.72e+09} V_chisq= 0.000125506;V_npnts= 31;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 30; W_sigma={0.00112,0.0119,0.027} Coefficient values ± one standard deviation K0 = 991.25 ± 0.00112 K1 = -1.4249 ± 0.0119 K2 = 5.389 ± 0.027 Constant: X0 = 3.71997e+09 •ReplaceWave /X trace=Doppler2, $"" •ModifyGraph mode(Doppler2)=0 !xV8%͹ ޹ UTD????datCWGAcWGAWGAWGA WGAWGA-WGA-!WGAAWGA2wWGAjWGAWGAWGA WGA WGA WGA WGA-! WGATR WGAH WGA"l WGA WGA: WGAF WGA WGA/WGA;WGAI.WGAR'WGA0LWGAwWGAxo8͹ ޹ SRangeTot????bN@s@" @P>@r\@⴮HP@0L@1Jd9@+~7@H?br7@A@C@/qdJ@m@&Bp@n3}@y߽@BJ"@@T-@*8>@- N@.>@X/9@/>;@'@l@k@vHe@ؠy@@xK8͹ ޹ Doppler????p@a4 /@qܝ>'@Dt@P;L31u@W$u@!4]b@O7Sbb@VBE@΀Nh3`U]$ jĂKpFdp@hvܒ2%gwq>z{IeZ(9cC`4x]сXRkn #[+toM.ؘcOL˓0#/ l#oĶ? ? Doppler2fs*)`????CWGAdat{@W%M@l񎔄@3\?@%ʉ@_פ@a{X?@-*d @iqfÿ@nO"j?@ބO@bՔ@M?@/<@?vƕ@'X+@@2@J? *@7C@t~@gH}@)LB*}@{|@Yr{@en*{@z@\q-=y@ u*y@:[x@@ڝ!w@A*w@É7v@{ўu@ +u@amt@&B es@ob+s@5y.r@vq@,g+q@πp@ [EQo@Xn@m@6Ĭk@9ƒWj@VVai@*Jحg@ΜXf@e@0c@MVXb@i#$a@\_@/_G\@LsZ@ӆ"\W@42T@FR@iٺN@bfI@tD@px=@2@٪1J @6!,*\*֧L7W@AMFpq FK慟Pk;JSO<2U#ݳ֞X>ʓ9I[Hs]1کN`*a [Nb;onNdIRe٣eV5\ f[Z`6m'Gnm&p dCUpSv|q'r͕v)rT.{sZ&t^mt,tB3|uI&v"v`{w+A%xx{yԥ)~&zw2-fz-z{,%|Z(U0|E$>{}cvk@fh@ 2qoe@ Mb@I_@Ż]@7wZ@~X@HΠU@WiSS@-Q@Q}^O@}mL@K@. @3-*=@"-<@>ed;@<:@:@9@%S49@; 8@J 8@X8@d8@*К8@38@t9@5b9@P@9@`:@N5;@nW+;@`<@Y=@{>@?@q@@ѐ%B@ϋC@\ E@NF@iOH@@J@ K@;M@׼O@ȱ&R@˖fT@%sV@0Y@91[@X[^@a@Ec@h f@Si@b%l@Qa$p@gps@wv@0Pz@u}@3k@W@$b[5@<*+@VC9@m_@@:B@@xE@sGL@ S@ g Z@hb@oxi@Mq@Ody@C>@9K0@:@8]@@N@7HW@\"ۺ@w@Cz+@2@pa@@ U@{$@>d@ @ P9@-@L4p(@z/2@0<@OŦE@P@ Z@]gZd@Ȏn@CKy@2-@Y1@h@ڜ3@?@@6@!@V@n@DL@`>bp@ @k@e_ @\R,@~Mܞ8@i~D@P@7D]@ލi@ܤ,v@_Ă@Ԁu@I/^>@fit_SRangeTot= poly(W_coef,x-W_fitConstants[0]) W_coef={991.25,-1.4249,5.389} W_fitConstants={3.72e+09} V_chisq= 0.000125506;V_npnts= 31;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 30; W_sigma={0.00112,0.0119,0.027} Coefficient values ± one standard deviation K0 = 991.25 ± 0.00112 K1 = -1.4249 ± 0.0119 K2 = 5.389 ± 0.027 Constant: X0 = 3.71997e+09 |!XJ? ? W_sigma????,M^PR?}GFO?cq?`]? ? W_ParamConfidenceInterval????ZH*? ? W_fitConstants????CWGA*d0TMW????Notebook0Notebook0Notebook0+[+[HH%.7@gyHHdh Rb Rb $Normal 6< BHHHH$$@Z48 0 Z    jOriginal Measured Data and original differentiated wave copied from main experiment and pasted in table   Date Time in UTC is wave UTD % Slant Range Total is wave SRangeTot ) Doppler is original differentiated wave  Function CalculateDoppler()  " recalculates Doppler as Doppler2   $Graph0()  plots them Z0<Dh08@t X!@l# Differentiate02 February 202211:02:02hArial2Special0Special1Special2// Platform=WindowsNT, IGORVersion=9.010, architecture=Intel, systemTextEncoding="Windows-1252", historyTextEncoding="UTF-8", procwinTextEncoding="UTF-8", recreationTextEncoding="UTF-8", build=38378 #pragma TextEncoding = "UTF-8" Silent 101 // use | as bitwise or -- not comment. DefaultFont "Arial" Table0() String/G root:gWMSetNextTextFilesTextEncoding = "Windows-1252" // Text encoding for Notebook0. Used by Igor Pro 7. OpenNotebook/N=Notebook0/W=(403.5,43.25,957,347)/J=11496 "Notebook0" MoveWindow/C 896.25,299.75,1352.25,568.25 MoveWindow/P 216,123.5,915.75,578.75 Graph0() KillStrings/Z root:gWMSetNextTextFilesTextEncoding Window Graph0() : Graph PauseUpdate; Silent 1 // building window... Display /W=(438.75,397.25,922.5,662) SRangeTot vs UTD AppendToGraph/R Doppler vs UTD AppendToGraph/R Doppler2 AppendToGraph fit_SRangeTot ModifyGraph mode(SRangeTot)=4,mode(Doppler)=4 ModifyGraph marker(SRangeTot)=6,marker(Doppler)=6,marker(Doppler2)=5 ModifyGraph rgb(SRangeTot)=(1,12815,52428),rgb(Doppler2)=(2,39321,1) ModifyGraph msize(SRangeTot)=2,msize(Doppler)=3,msize(Doppler2)=2 ModifyGraph grid(left)=1,grid(bottom)=1 ModifyGraph nticks(bottom)=12 ModifyGraph dateInfo(bottom)={0,0,0} SetAxis/A/N=1 left SetAxis/A/N=1/E=1 bottom ShowInfo Legend/C/N=text0/J/A=MC/X=21.07/Y=25.54 "\\s(SRangeTot) SRangeTot\r\\s(Doppler) Doppler\r\\s(Doppler2) Doppler2\r\\s(fit_SRangeTot) fit_SRangeTot" EndMacro Window Table0() : Table PauseUpdate; Silent 1 // building window... Edit/W=(5.25,41.75,384.75,293) UTD,SRangeTot,Doppler,Doppler2 ModifyTable format(Point)=1,format(UTD)=8,showFracSeconds(UTD)=1,width(UTD)=119 ModifyTable rgb(SRangeTot)=(1,12815,52428),width(Doppler)=50,rgb(Doppler)=(65535,0,0) ModifyTable width(Doppler2)=50,rgb(Doppler2)=(2,39321,1) EndMacro ?#pragma TextEncoding = "UTF-8" #pragma rtGlobals=3 // Use modern global access method and strict wave access. Function CalculateDoppler() wave myUTD = UTD wave mySRangeTot = SRangeTot // km CurveFit poly_XOffset 3, mySRangeTot /X=myUTD /D wave fitResult = fit_SRangeTot Differentiate fitResult/D=Doppler2 //Differentiate /METH=0 mySrangeTot /X=myUTD /D=Doppler2 variable frequency = 143.050 * 10^6 // Hz variable c0 = 2.99792 * 10^5 // speed of em radiation km/s variable wavelength // wavelength km wavelength = c0/frequency Doppler2 *= (1/wavelength) * -1.0 End Window Graph0() : Graph PauseUpdate; Silent 1 // building window... Display /W=(438,446,921.75,710.75) SRangeTot vs UTD AppendToGraph/R Doppler,Doppler2 vs UTD ModifyGraph mode=4 ModifyGraph marker(SRangeTot)=6,marker(Doppler)=6,marker(Doppler2)=5 ModifyGraph rgb(SRangeTot)=(1,12815,52428),rgb(Doppler2)=(2,39321,1) ModifyGraph msize(SRangeTot)=2,msize(Doppler)=3,msize(Doppler2)=2 ModifyGraph grid(left)=1,grid(bottom)=1 ModifyGraph nticks(bottom)=12 ModifyGraph dateInfo(bottom)={0,0,0} SetAxis/A/N=1 left SetAxis/A/N=1/E=1 bottom ShowInfo Legend/C/N=text0/J/A=MC/X=21.07/Y=25.54 "\\s(SRangeTot) SRangeTot\r\\s(Doppler) Doppler\r\\s(Doppler2) Doppler2" EndMacro