Image:Conformal map.svg
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Conformal_map.svg (SVG file, nominally 535 × 937 pixels, file size: 34 KB)
| This is a file from the Wikimedia Commons. The description on its description page there is shown below.
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| Description |
Illustration of a conformal map. |
|---|---|
| Source |
self-made with MATLAB, tweaked in Inkscape. |
| Date |
03:38, 23 January 2008 (UTC) |
| Author | |
| Permission (Reusing this image) |
See below |
 |
I, the copyright holder of this work, hereby release it into the public domain. This applies worldwide. In case this is not legally possible: Afrikaans | Alemannisch | Aragonés | العربية | Asturianu | Български | Català | Česky | Cymraeg | Dansk | Deutsch | Eʋegbe | Ελληνικά | English | Español | Esperanto | Euskara | Estremeñu | فارسی | Français | Galego | 한국어 | हिन्दी | Hrvatski | Ido | Bahasa Indonesia | Íslenska | Italiano | עברית | Kurdî / كوردی | Latina | Lietuvių | Latviešu | Magyar | Македонски | Bahasa Melayu | Nederlands | Norsk (bokmål) | Norsk (nynorsk) | 日本語 | Polski | Português | Ripoarisch | Română | Русский | Shqip | Slovenčina | Slovenščina | Српски / Srpski | Svenska | ไทย | Tagalog | Türkçe | Українська | Tiếng Việt | Walon | 中文(简体) | 中文(繁體) | zh-yue-hant | +/- |
[edit] Source code (MATLAB)
% Compute the image of a rectangular grid under a a conformal map. function main() N = 15; % num of grid points epsilon = 0.1; % displacement for each small diffeomorphism num_comp = 10; % number of times the diffeomorphism is composed with itself S = linspace(-1, 1, N); [X, Y] = meshgrid(S); % graphing settings lw = 1.0; % KSmrq's colors red = [0.867 0.06 0.14]; blue = [0, 129, 205]/256; green = [0, 200, 70]/256; yellow = [254, 194, 0]/256; white = 0.99*[1, 1, 1]; mycolor = blue; % start plotting figno=1; figure(figno); clf; shiftx = 0; shifty = 0; scale = 1; do_plot(X, Y, lw, figno, mycolor, shiftx, shifty, scale) I=sqrt(-1); Z = X+I*Y; % tweak these numbers for a pretty map z0 = 1+ 2*I; z1 = 0.1+ 0.2*I; z2 = 0.2+ 0.3*I; a = 0.01; b = 0.02; shiftx = 0.1; shifty = 1.2; scale = 1.4; F = (Z+z0).^2 +a*(Z+z1).^3 +b*(Z+z2).^4; F = (1+2*I)*F; XF = real(F); YF=imag(F); do_plot(XF, YF, lw, figno, mycolor, shiftx, shifty, scale) axis ([-1 1.3 -2 2]); axis off; saveas(gcf, 'Conformal_map.eps', 'psc2'); function do_plot(X, Y, lw, figno, mycolor, shiftx, shifty, scale) figure(figno); hold on; [M, N] = size(X); X = X - min(min(X)); Y = Y - min(min(Y)); a = max(max(max(abs(X))), max(max(abs(Y)))); X = X/a; Y = Y/a; X = scale*(X-shiftx); Y = scale*(Y-shifty); for i=1:N plot(X(:, i), Y(:, i), 'linewidth', lw, 'color', mycolor); plot(X(i, :), Y(i, :), 'linewidth', lw, 'color', mycolor); end % axis([-1-small, 1+small, -1-small, 1+small]); axis equal; axis off;
File history
Click on a date/time to view the file as it appeared at that time.
| Date/Time | Dimensions | User | Comment | |
|---|---|---|---|---|
| current | 21:51, 27 January 2008 | 535×937 (34 KB) | Oleg Alexandrov | (Make arrow and text smaller) |
| 03:36, 23 January 2008 | 535×937 (34 KB) | Oleg Alexandrov | ({{Information |Description=Illustration of a conformal map. |Source=self-made with MATLAB, tweaked in Inkscape. |~~~~~ |Author= Oleg Alexandrov |Permission= |other_versions= }} {{PD-self}} ==Source code ([[) |
