Plot of a butterfly using mathematical equations

21 views (last 30 days)
Ahmed Mohamed Mansoor
Ahmed Mohamed Mansoor on 2 Oct 2022
Edited: Ahmed Mohamed Mansoor on 3 Oct 2022
Hello, I saw these set of equations that plot a butterfly using circles (See Image Below). I was able to code it down and the plot seems to be okay. However, there are a few issues with my code and it would be great if anybody could help.
My questions are:
1) Is the code correct?
2) Is there a faster method of plotting these circles. The current code takes quite a while for it to plot.
3) How can i get a color scheme based on the picture above?
The code that I attempted was as follows:
clear; close all; clc;
sin1 =@(k) sin((pi*k)./40000);
cos1 =@(k) cos((pi*k)./40000);
sin141=@(k) sin((141*pi*k)./40000);
cos141=@(k) cos((141*pi*k)./40000);
sin2 =@(k) sin((2*pi*k)./40000);
cos2 =@(k) cos((2*pi*k)./40000);
cos32 =@(k) cos((32*pi*k)./40000);
sin6 =@(k) sin((6*pi*k)./40000);
sin18 =@(k) sin((18*pi*k)./40000);
cos3 =@(k) cos((3*pi*k)./40000);
cos21 =@(k) cos((21*pi*k)./40000);
cos12 =@(k) cos((12*pi*k)./40000);
x = 1:40000;
Xk = (3/2)*cos141(x).^9 .* (1-0.5*sin1(x)) .* (1 - 0.25*cos2(x).^30 .* ...
(1+cos32(x).^20)) .* (1 - 0.5*sin2(x).^30 .* sin6(x).^10 .* ...
(0.5 + 0.5*sin18(x).^20));
Yk = cos2(x) .* cos141(x).^2 .* (1+0.25*(cos1(x).*cos3(x).*cos21(x)).^24);
Rk = 0.025 .* (cos141(x).^14 + sin141(x).^6) .* (1- (cos1(x).*cos3(x).*...
cos12(x)).^16) + 0.01;
axis([-1.5 1.5 -1 1.5])
for i = 1:length(x)
viscircles([Xk(i), Yk(i)], Rk(i),'Color',[0.7 0.7 0.7]);
drawnow
pause(10^-10000)
end
Your help would be appreciated.
Thank you

Sign in to answer this question.

Accepted Answer

KSSV
KSSV on 2 Oct 2022
Edited: KSSV on 2 Oct 2022
Ran in:
Don't use loop...instead use scatter. Read about it.
clc; clear all ;
clear; close all; clc;
sin1 =@(k) sin((pi*k)./40000);
cos1 =@(k) cos((pi*k)./40000);
sin141=@(k) sin((141*pi*k)./40000);
cos141=@(k) cos((141*pi*k)./40000);
sin2 =@(k) sin((2*pi*k)./40000);
cos2 =@(k) cos((2*pi*k)./40000);
cos32 =@(k) cos((32*pi*k)./40000);
sin6 =@(k) sin((6*pi*k)./40000);
sin18 =@(k) sin((18*pi*k)./40000);
cos3 =@(k) cos((3*pi*k)./40000);
cos21 =@(k) cos((21*pi*k)./40000);
cos12 =@(k) cos((12*pi*k)./40000);
x = 1:40000;
Xk = (3/2)*cos141(x).^9 .* (1-0.5*sin1(x)) .* (1 - 0.25*cos2(x).^30 .* ...
(1+cos32(x).^20)) .* (1 - 0.5*sin2(x).^30 .* sin6(x).^10 .* ...
(0.5 + 0.5*sin18(x).^20));
Yk = cos2(x) .* cos141(x).^2 .* (1+0.25*(cos1(x).*cos3(x).*cos21(x)).^24);
Rk = 0.025 .* (cos141(x).^14 + sin141(x).^6) .* (1- (cos1(x).*cos3(x).*...
cos12(x)).^16) + 0.01;
scatter(Xk,Yk,[],Rk)
colormap(jet)
axis([-1.5 1.5 -1 1.5])
  3 Comments
Show 1 older comment
Ahmed Mohamed Mansoor
Ahmed Mohamed Mansoor on 3 Oct 2022
Edited: Ahmed Mohamed Mansoor on 3 Oct 2022
Thank you again.
I came up with this. Is there a way to speed this up?
for i = 1:length(x)
comet(Xk(i),Yk(i),Rk(i))
colormap(copper)
axis([-1.5 1.5 -1 1.5])
hold on
pause(0.000005)
end

Sign in to comment.

More Answers (0)

Categories

Find more on Animation in Help Center and File Exchange

Tags

Products


Release

R2022a

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!