File:Penplot.jpg: Difference between revisions
imported>Dmitrii Kouznetsov (Delete comments in the codes) |
imported>Dmitrii Kouznetsov (categories) |
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|date-created = 2014 | |date-created = 2014 | ||
|pub-country = Japan, Germany | |pub-country = Japan, Germany | ||
|notes = [[Pentation]] is described at [[TORI]], http://mizugadro.mydns.jp/t/index.php/Pentation and also (In Russian) in the book <ref> | |notes = [[Pentation]] is described at [[TORI]], http://mizugadro.mydns.jp/t/index.php/Pentation and also (In Russian) in the book <ref name="book"> | ||
https://www.morebooks.de/store/ru/book/Суперфункции/isbn/978-3-659-56202-0 <br> | https://www.morebooks.de/store/ru/book/Суперфункции/isbn/978-3-659-56202-0 <br> | ||
http://www.ils.uec.ac.jp/~dima/BOOK/202.pdf <br> | http://www.ils.uec.ac.jp/~dima/BOOK/202.pdf <br> | ||
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The thin curves show approximations of pentation. | The thin curves show approximations of pentation. | ||
The red horizontal line shows the fixed point of tetration, <math>y=L</math>. | The red horizontal line shows the fixed point of tetration, <math>y=L</math>. | ||
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http://www.springerlink.com/content/u712vtp4122544x4 D.Kouznetsov. Holomorphic extension of the logistic sequence. Moscow University Physics Bulletin, 2010, No.2, p.91-98. | http://www.springerlink.com/content/u712vtp4122544x4 D.Kouznetsov. Holomorphic extension of the logistic sequence. Moscow University Physics Bulletin, 2010, No.2, p.91-98. | ||
http://tori.ils.uec.ac.jp/2012OR/2012or.pdf D. Kouznetsov. Superfunctions for optical amplifiers. Preprint ILS UEC, 2012 | http://tori.ils.uec.ac.jp/2012OR/2012or.pdf D. Kouznetsov. Superfunctions for optical amplifiers. Preprint ILS UEC, 2012 | ||
</ref>. | |||
The picture is described in the book [[Суперфункции]], In Russian <ref name="book"> | |||
https://www.morebooks.de/store/ru/book/Суперфункции/isbn/978-3-659-56202-0 <br> | |||
http://www.ils.uec.ac.jp/~dima/BOOK/202.pdf <br> | |||
http://mizugadro.mydns.jp/BOOK/202.pdf | |||
Д.Кузнецов. Суперфункции. Lambert Academic Publishing, 2014. (In Russian), page 268, Figure 19.3. | |||
</ref>. | </ref>. | ||
Line 190: | Line 196: | ||
==References== | ==References== | ||
<references/> | <references/> | ||
[[Category:Tetration]] | |||
[[Category:Pentation]] | |||
[[Category:Superfunction]] | |||
[[Category:Explicit plot]] | |||
[[Category:TORI]] |
Revision as of 03:29, 4 September 2014
Summary
Title / Description
|
plot of the natural pension , id set, pentation to base , id set, pentation to base ; the thik black curve shows ; the thik black curve shows .
The thin curves show the two asymptotics of pentation and the error of the linear approximation |
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Citizendium author & Copyright holder
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Copyright © Dmitrii Kouznetsov. See below for licence/re-use information. |
Date created
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2014 |
Country of first publication
|
Japan, Germany |
Notes
|
Pentation is described at TORI, http://mizugadro.mydns.jp/t/index.php/Pentation and also (In Russian) in the book [1] |
Other versions
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The image is borrowed from TORI, http://mizugadro.mydns.jp/t/index.php/File:Penplot.jpg |
Using this image on CZ
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Licensing
This media, Penplot.jpg, is licenced under the Creative Commons Attribution 3.0 Unported License
You are free:
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Description
Pentation pen is superfunction of tetration to the same base. Natural pentation is solution of the transfer equation
constructed with regular iteration at the smallest real fixed point of tetration; is solution of equation
with additional condition .
The real-real plot is shown with thick black curve.
The thin curves show approximations of pentation. The red horizontal line shows the fixed point of tetration, .
The thin blue curve shows the asymptotic of pentation at large negative values of the real part of the argument,
where
and
The thin green line shown the deviation from the linear approximation
The deviation is denoted as
In the range , the deviation is small, the linear approximation provides 2 correct significant digits. In order to make the deviation visible, it is scaled with factor 10, so, is plotted.
Properties of tetration are described in publications [2]
The regular iteration in construction of superfunction is described at TORI, http://mizugadro.mydns.jp/t/index.php/Regular_iteration and also in [3][4][5].
The picture is described in the book Суперфункции, In Russian [1].
C++ generator of curves
#include <math.h> #include <stdio.h> #include <stdlib.h> #define DB double #define DO(x,y) for(x=0;x<y;x++) #include <complex> typedef std::complex<double> z_type; #define Re(x) x.real() #define Im(x) x.imag() #define I z_type(0.,1.) #include "ado.cin" #include "fsexp.cin" #include "fslog.cin" z_type pen0(z_type z){ DB Lp=-1.8503545290271812; DB k,a,b; k=1.86573322821; a=-.6263241; b=0.4827; z_type e=exp(k*z); return Lp + e*(1.+e*(a+b*e)); } z_type pen7(z_type z){ DB x; int m,n; z=pen0(z+(2.24817451898-7.)); DO(n,7) { if(Re(z)>8.) return 999.; z=FSEXP(z); if(abs(z)<40) goto L1; return 999.; L1: ;} return z; } z_type pen(z_type z){ DB x; int m,n; x=Re(z); if(x<= -4.) return pen0(z); m=int(x+5.); z-=DB(m); z=pen0(z); DO(n,m) z=FSEXP(z); return z; } int main(){ int j,k,m,n; DB x,y, p,q, t; z_type z,c,d, cu,cd; FILE *o;o=fopen("penplo.eps","w"); ado(o,608,1008); fprintf(o,"404 204 translate\n 100 100 scale\n"); #define M(x,y) fprintf(o,"%8.4f %8.4f M\n",0.+x,0.+y); #define L(x,y) fprintf(o,"%8.4f %8.4f L\n",0.+x,0.+y); for(m=-4;m<3;m++) {M(m,-2)L(m,8)} for(n=-2;n<11;n++) {M( -4,n)L(2,n)} fprintf(o,"2 setlinecap 1 setlinejoin .004 W 0 0 0 RGB S\n"); DO(n,150){x=-4+.04*n;y=Re(pen7(x)); if(n==0) M(x,y)else L(x,y); if(y>8.)break;} fprintf(o,".02 W 0 0 0 RGB S\n"); DO(n,150){x=-2.2+.04*n;y=10.*(Re(pen7(x))-(1.+x)); if(n==0) M(x,y)else L(x,y); if(y>.3)break;} fprintf(o,".01 W 0 .5 0 RGB S\n"); DB L=-1.8503545290271812; DB K=1.86573322821; DB a=-.6263241; DB b=0.4827; DO(n,80){x=-4.+.04*n; DB e=exp(K*(x+2.24817451898)); y=L+e; if(n==0) M(x,y) else L(x,y); if(y>8.) break;} fprintf(o,".01 W 0 0 1 RGB S\n"); M(-4,L)L(0,L) fprintf(o,".01 W 1 0 0 RGB S\n"); DB t2=M_PI/1.86573322821; DB tx=-2.32; fprintf(o,"showpage\n%c%cTrailer",'%','%'); fclose(o); printf("pen7(-1)=%18.14f\n", Re(pen7(-1.))); printf("Pi/1.86573322821=%18.14f %18.14f\n", M_PI/1.86573322821, 2*M_PI/1.86573322821); system("epstopdf penplo.eps"); system( "open penplo.pdf"); }
Latex generator of labels
\documentclass[12pt]{article} \paperwidth 608px \paperheight 1008px \textwidth 1394px \textheight 1300px \topmargin -104px \oddsidemargin -90px \usepackage{graphics} \usepackage{rotating} \newcommand \sx {\scalebox} \newcommand \rot {\begin{rotate}} \newcommand \ero {\end{rotate}} \newcommand \ing {\includegraphics} \newcommand \rmi {\mathrm{i}} \begin{document} {\begin{picture}(608,1008) \put(0,0){\ing{penplo}} \put(377,994){\sx{3.2}{$y$}} \put(377,895){\sx{3.2}{$7$}} \put(377,795){\sx{3.2}{$6$}} \put(377,695){\sx{3.2}{$5$}} \put(377,594){\sx{3.2}{$4$}} \put(377,494){\sx{3.2}{$3$}} \put(377,394){\sx{3.2}{$2$}} \put(377,294){\sx{3.2}{$1$}} \put(377,194){\sx{3.2}{$0$}} \put(358, 93){\sx{3.2}{$-1$}} \put(80,174){\sx{3.2}{$-3$}} \put(180,174){\sx{3.2}{$-2$}} \put(280,174){\sx{3.2}{$-1$}} \put(396,174){\sx{3.2}{$0$}} \put(496,174){\sx{3.2}{$1$}} \put(590,174){\sx{3.2}{$x$}} \put(242,406){\sx{3.6}{\rot{85}$y\!=\!L+\exp(k(x\!+\!x_1))$\ero}} \put(446,370){\sx{3.9}{\rot{70}$y\!=\!\mathrm{pen}(x)$\ero}} \put(8,236){\sx{3.3}{$y=10\,\delta(x)$}} \put(312, 9){\sx{3.2}{$y\!=\!L$}} \end{picture} \end{document}
References
- ↑ 1.0 1.1
https://www.morebooks.de/store/ru/book/Суперфункции/isbn/978-3-659-56202-0
http://www.ils.uec.ac.jp/~dima/BOOK/202.pdf
http://mizugadro.mydns.jp/BOOK/202.pdf Д.Кузнецов. Суперфункции. Lambert Academic Publishing, 2014. (In Russian), page 268, Figure 19.3. - ↑ http://www.ams.org/mcom/2009-78-267/S0025-5718-09-02188-7/home.html http://www.ils.uec.ac.jp/~dima/PAPERS/2009analuxpRepri.pdf http://mizugadro.mydns.jp/PAPERS/2009analuxpRepri.pdf D.Kouznetsov. (2009). Solution of F(z+1)=exp(F(z)) in the complex z-plane. Mathematics of Computation, 78: 1647-1670. DOI:10.1090/S0025-5718-09-02188-7.
- ↑ http://www.ams.org/journals/mcom/2010-79-271/S0025-5718-10-02342-2/home.html D.Kouznetsov, H.Trappmann. Portrait of the four regular super-exponentials to base sqrt(2). Mathematics of Computation, 2010, v.79, p.1727-1756.
- ↑ http://www.springerlink.com/content/qt31671237421111/fulltext.pdf?page=1 D.Kouznetsov, H.Trappmann. Superfunctions and square root of factorial. Moscow University Physics Bulletin, 2010, v.65, No.1, p.6-12.
- ↑ http://www.springerlink.com/content/u712vtp4122544x4 D.Kouznetsov. Holomorphic extension of the logistic sequence. Moscow University Physics Bulletin, 2010, No.2, p.91-98. http://tori.ils.uec.ac.jp/2012OR/2012or.pdf D. Kouznetsov. Superfunctions for optical amplifiers. Preprint ILS UEC, 2012
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