File:Amoeba3.svg
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Structured data
Captions
Summary
[edit]DescriptionAmoeba3.svg | The amoeba of P(z, w) = 1 + z+z2 + z3 + z2w3 + 10zw + 12z2w+10z2w2 |
Date | (UTC) |
Source | File:Amoeba3.png |
Author | Vectorised by Zerodamage, from the original work by Oleg Alexandrov |
This is a retouched picture, which means that it has been digitally altered from its original version. Modifications: Vectorization. The original can be viewed here: Amoeba3.png: . Modifications made by Zerodamage.
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Licensing
[edit]This file is licensed under the Creative Commons Attribution-Share Alike 3.0 Unported license.
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- to remix – to adapt the work
- Under the following conditions:
- attribution – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
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Source code
[edit]% find the amoeba of a polynomial, see % http://en.wikipedia.org/wiki/Amoeba_%28mathematics%29 % consider a polynomial in z and w %f[z_, w_] = 1 + z + z^2 + z^3 + z^2*w^3 + 10*z*w + 12*z^2*w + 10*z^2*w^2 % as a polynomial in w with coeffs polynonials in z, its coeffs are % [z^2, 10*z^2, 12*z^2+10*z, 1 + z + z^2 + z^3] (from largest to smallest) % as a polynomial in z with coeffs polynonials in w, its coeffs are % [1, 1+w^3+12*w+10*w^2, 1+10*w, 1] (from largest to smallest) function main() figure(3); clf; hold on; axis([-10, 10, -6, 7]); axis equal; axis off; fs = 20; set(gca, 'fontsize', fs); ii=sqrt(-1); tiny = 100*eps; Ntheta = 300; NR= 400; NRs=100; % NRs << NR % LogR is a vector of numbers, not uniformly distributed (more points where needed). A=-10; B=10; AA = -0.1; BB = 0.1; LogR = [linspace(A, B, NR-NRs), linspace(AA, BB, NRs)]; LogR = sort (LogR); R = exp(LogR); % a vector of angles Theta = linspace(0, 2*pi, Ntheta); Rho = zeros(1, 3*Ntheta); % will store the absolute values of the roots One = ones (1, 3*Ntheta); % draw the 2D figure as union of horizontal pieces and then union of vertical pieces for type=1:2 for count_r = 1:NR count_r r = R(count_r); for count_t =1:Ntheta theta = Theta (count_t); if type == 1 z=r*exp(ii*theta); Coeffs = [z^2, 10*z^2, 12*z^2+10*z, 1 + z + z^2 + z^3]; else w=r*exp(ii*theta); Coeffs = [1, 1+w^3+12*w+10*w^2, 1+10*w, 1]; end % find the roots of the polynomial with given coefficients Roots = roots(Coeffs); % log |root|. Use max() to avoid log 0. Rho((3*count_t-2):(3*count_t))= log (max(abs(Roots), tiny)); end % plot the roots horizontally or vertically if type == 1 plot(LogR(count_r)*One, Rho, 'b.'); else plot(Rho, LogR(count_r)*One, 'b.'); end end end saveas(gcf, 'amoeba3.eps', 'psc2'); % A function I decided not to use, but which may be helpful in the future. %function find_gaps_add_to_curves(count_r, Rho) % % global Curves; % % Rho = sort (Rho); % k = length (Rho); % % av_gap = sum(Rho(2:k) - Rho (1:(k-1)))/(k-1); % % % top-most and bottom-most curve % Curves(1, count_r)=Rho(1); Curves(2, count_r)=Rho(k); % % % find the gaps, which will give us points on the curves limiting the amoeba % count = 3; % for j=1:(k-1) % if Rho(j+1) - Rho (j) > 200*av_gap % % Curves(count, count_r) = Rho(j); count = count+1; % Curves(count, count_r) = Rho(j+1); count = count+1; % end % end % The polynomial in wiki notation %<math>P(z_1, z_2)=1 + z_1\,</math> %<math>+ z_1^2 + z_1^3 + z_1^2z_2^3\,</math> %<math>+ 10z_1z_2 + 12z_1^2z_2\,</math> %<math>+ 10z_1^2z_2^2.\,</math>
Original upload log
[edit]This image is a derivative work of the following images:
- File:Amoeba3.png licensed with PD-self
- 2007-03-02T15:45:04Z Oleg Alexandrov 1267x1006 (12078 Bytes) Made by myself with Matlab.
- 2007-03-02T15:39:58Z Oleg Alexandrov 1267x1006 (12205 Bytes) Made by myself with Matlab.
- 2007-03-02T11:10:55Z Oleg Alexandrov 122x100 (1293 Bytes) Made by myself with Matlab.
- 2007-03-02T11:08:58Z Oleg Alexandrov 1208x1006 (27215 Bytes) Made by myself with Matlab.
- 2007-03-02T11:04:24Z Oleg Alexandrov 1267x833 (15788 Bytes) Made by myself with Matlab.
- 2007-03-02T11:04:05Z Oleg Alexandrov 1267x833 (15788 Bytes) Made by myself with Matlab.
- 2007-03-02T11:01:12Z Oleg Alexandrov 1356x914 (21608 Bytes) Made by myself with Matlab.
- 2007-03-02T10:59:51Z Oleg Alexandrov 1378x972 (18538 Bytes) Made by myself with Matlab.
- 2007-03-02T10:48:46Z Oleg Alexandrov 1378x972 (18538 Bytes) Made by myself with Matlab.
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Date/Time | Thumbnail | Dimensions | User | Comment | |
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current | 14:49, 8 August 2012 | 1,584 × 1,258 (2 KB) | Zerodamage (talk | contribs) | == {{int:filedesc}} == {{Information |Description=== |Source={{Derived from|Amoeba3.png|display=50}} |Date=2012-08-08 14:48 (UTC) |Author=*File:Amoeba3.png: Oleg Alexandrov *derivative work: [[User:{{subst:REVISIONUSER}}|... |
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