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  • File:SelfCosFTt200.png
    Two self-fourier functions and their discrete representations and their discrete [[CosFourier]] transf These functions are shown with dotted lines.
    (1,467 × 637 (100 KB)) - 09:42, 21 June 2013
  • File:SquareRootOfFactorial.png
    Graphical representation of the [[Square root of factorial]]: functions<br>
    (538 × 1,050 (34 KB)) - 09:39, 21 June 2013
  • File:Superfactocomple1.png
    [[Category:Mathematical functions]]
    (706 × 706 (172 KB)) - 00:10, 29 February 2024
  • File:Superfactorea500.png
    [[Category:Holomorphic functions]]
    (575 × 748 (50 KB)) - 00:06, 29 February 2024
  • File:TaniaBigMap.png
    [[Category:Approximation of functions]]
    (851 × 841 (654 KB)) - 08:53, 1 December 2018
  • File:TaniaContourPlot100.png
    [[Category:Inverse functions]]
    (1,182 × 1,168 (931 KB)) - 08:53, 1 December 2018
  • File:TaniaPlot.png
    [[Category:Inverse functions]] [[Category:Holomorphic functions]]
    (807 × 424 (16 KB)) - 09:39, 21 June 2013
  • File:Tet10bxr.jpg
    [[Category:Mathematical functions]]
    (2,491 × 1,952 (236 KB)) - 08:53, 1 December 2018
  • File:TetPlotU.png
    $y\!=\!x\!+\!1$. The difference between these two functions, scaled with factor 10, id est, $y=10\Big( \mathrm{tet}(x)-(x+1)\Big)$, is
    (838 × 2,088 (124 KB)) - 08:53, 1 December 2018
  • File:Tetreal10bx10d.png
    [[Category:Mathematical functions]]
    (2,192 × 2,026 (436 KB)) - 13:56, 5 August 2020
  • File:Tetreal2215.gif
    [[Category:Mathematical functions]]
    (876 × 881 (111 KB)) - 09:38, 21 June 2013
  • File:Tetreal2215.jpg
    // The functions defined in [[conto.cin]] and [[ado.cin]] should be downloaded for the compo
    (876 × 881 (130 KB)) - 09:38, 21 June 2013
  • File:TodaShow.png
    ...laser as oscillator Toda: approximation of the solution through elementary functions -- J. Phys. A: 40, 2107-2124 (2007).
    (1,707 × 317 (155 KB)) - 09:39, 21 June 2013
  • File:Exp1mapT200.jpg
    ...-4/S0273-0979-1993-00432-4.pdf Walter Bergweiler. Iteration of meromorphic functions. Bull. Amer. Math. Soc. 29 (1993), 151-188.
    (2,281 × 1,179 (1.14 MB)) - 12:37, 28 July 2013
  • File:Exp09mapT200.jpg
    ...-4/S0273-0979-1993-00432-4.pdf Walter Bergweiler. Iteration of meromorphic functions. Bull. Amer. Math. Soc. 29 (1993), 151-188.
    (2,281 × 1,179 (1.23 MB)) - 12:28, 28 July 2013
  • File:Exm01mapT200.jpg
    The complex double implementations [[FSEXP]] and [[FSLOG]] of these functions are used in the [[C++]] code below. ...-4/S0273-0979-1993-00432-4.pdf Walter Bergweiler. Iteration of meromorphic functions. Bull. Amer. Math. Soc. 29 (1993), 151-188.
    (2,281 × 1,179 (834 KB)) - 12:52, 28 July 2013
  • File:Exm05mapT200.jpg
    ...-4/S0273-0979-1993-00432-4.pdf Walter Bergweiler. Iteration of meromorphic functions. Bull. Amer. Math. Soc. 29 (1993), 151-188.
    (2,281 × 1,179 (705 KB)) - 12:54, 28 July 2013
  • File:Exm09mapT200.jpg
    ...-4/S0273-0979-1993-00432-4.pdf Walter Bergweiler. Iteration of meromorphic functions. Bull. Amer. Math. Soc. 29 (1993), 151-188.
    (2,281 × 1,179 (560 KB)) - 12:56, 28 July 2013
  • File:Exm1mapT200.jpg
    ...-4/S0273-0979-1993-00432-4.pdf Walter Bergweiler. Iteration of meromorphic functions. Bull. Amer. Math. Soc. 29 (1993), 151-188.
    (2,281 × 1,179 (544 KB)) - 12:47, 28 July 2013
  • File:2014.12.26rubleDollar.png
    and the approximations with elementary functions. where $M$ is total number of experimental data. Approximating functions are specified below:
    (1,502 × 651 (246 KB)) - 08:26, 1 December 2018

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