How can I change the line color in a graph using plot

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Muhammad Fauzan 2021년 7월 28일

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https://kr.mathworks.com/matlabcentral/answers/887579-how-can-i-change-the-line-color-in-a-graph-using-plot

편집: Stephen23 2021년 7월 28일

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I got a different plot from the video tutorial, but the code is exactly the same. anyone can help me?

This is the plot of the code I made

Meanwhile, this is the plot of the video tutorial

and this is the code

Dy = 10; Dz = 10;
lambda = 0.0001;
a = 270;
v = 3;
Q1 = 1000;Q5 = 1000;Q9 = 1000;
Q2 = 1000;Q6 = 1000;Q10 = 1000;
Q3 = 1000;Q7 = 1000;Q11 = 1000;
Q4 = 1000;Q8 = 1000;Q12 = 1000;
xs1 = 2000; ys1 = -1000;xs5 = 2000; ys5 = -2000;xs9 = 6000; ys9 = -2000;
xs2 = 4000; ys2 = 2000;xs6 = 3000; ys6 = 1000;xs10 = 7000; ys10 = 1900;
xs3 = 100; ys3 = 1500;xs7 = 1000; ys7 = -1000;xs11 = 3000; ys11 = 2500;
xs4 = 1000; ys4 = -100;xs8 = 500; ys8 = 2500;xs12 = 8000; ys12 = -1000;
xmin = 0; xmax = 10000;
ymin = -4000; ymax = 4000;
H1 = 100;H5 = 100;H9 = 100;
H2 = 100;H6 = 100;H10 = 100;
H3 = 100;H7 = 100;H11 = 100;
H4 = 100;H8 = 100;H12 = 100;
z = 1.5;
gplot = 1;
gcont = 2;
[x,y] = meshgrid(linspace(xmin,xmax,100),linspace(ymin,ymax,100));
e = ones(size(x));
aa = (90-a)*pi/180;
xx1 = (x - xs1)*cos(aa) - (ys1 - y)*sin(aa); yy1 = (y - ys1)*cos(aa) + (xs1 - x)*sin(aa);
xx2 = (x - xs2)*cos(aa) - (ys2 - y)*sin(aa); yy2 = (y - ys2)*cos(aa) + (xs2 - x)*sin(aa);
xx3 = (x - xs3)*cos(aa) - (ys3 - y)*sin(aa); yy3 = (y - ys3)*cos(aa) + (xs3 - x)*sin(aa);
xx4 = (x - xs4)*cos(aa) - (ys4 - y)*sin(aa); yy4 = (y - ys4)*cos(aa) + (xs4 - x)*sin(aa);
xx5 = (x - xs5)*cos(aa) - (ys5 - y)*sin(aa); yy5 = (y - ys5)*cos(aa) + (xs5 - x)*sin(aa);
xx6 = (x - xs6)*cos(aa) - (ys6 - y)*sin(aa); yy6 = (y - ys6)*cos(aa) + (xs6 - x)*sin(aa);
xx7 = (x - xs7)*cos(aa) - (ys7 - y)*sin(aa); yy7 = (y - ys7)*cos(aa) + (xs7 - x)*sin(aa);
xx8 = (x - xs8)*cos(aa) - (ys8 - y)*sin(aa); yy8 = (y - ys8)*cos(aa) + (xs8 - x)*sin(aa);
xx9 = (x - xs9)*cos(aa) - (ys9 - y)*sin(aa); yy9 = (y - ys9)*cos(aa) + (xs9 - x)*sin(aa);
xx10 = (x - xs10)*cos(aa) - (ys10 - y)*sin(aa); yy10 = (y - ys10)*cos(aa) + (xs10 - x)*sin(aa);
xx11 = (x - xs11)*cos(aa) - (ys11 - y)*sin(aa); yy11 = (y - ys11)*cos(aa) + (xs11 - x)*sin(aa);
xx12 = (x - xs12)*cos(aa) - (ys12 - y)*sin(aa); yy12 = (y - ys12)*cos(aa) + (xs12 - x)*sin(aa);
c1 = 1000*Q1*e./(4*pi*(xx1>0).*xx1*sqrt(Dy*Dz)*v).*exp(-v*yy1.*yy1./(4*Dy*(xx1>0.*(exp(-v*(z-H1)*e./(4*Dz*(xx1>0).*xx1)).*(exp(-v*(z-H1)*e))))));
c1(isinf(c1))=0; c1(isnan(c1))=0;
c2 = 1000*Q2*e./(4*pi*(xx2>0).*xx2*sqrt(Dy*Dz)*v).*exp(-v*yy2.*yy2./(4*Dy*(xx2>0.*(exp(-v*(z-H2)*e./(4*Dz*(xx2>0).*xx2)).*(exp(-v*(z-H2)*e))))));
c2(isinf(c2))=0; c2(isnan(c2))=0;
c3 = 1000*Q3*e./(4*pi*(xx3>0).*xx3*sqrt(Dy*Dz)*v).*exp(-v*yy3.*yy3./(4*Dy*(xx3>0.*(exp(-v*(z-H3)*e./(4*Dz*(xx3>0).*xx3)).*(exp(-v*(z-H3)*e))))));
c3(isinf(c3))=0; c3(isnan(c3))=0;
c4 = 1000*Q4*e./(4*pi*(xx4>0).*xx4*sqrt(Dy*Dz)*v).*exp(-v*yy4.*yy1./(4*Dy*(xx4>0.*(exp(-v*(z-H4)*e./(4*Dz*(xx4>0).*xx4)).*(exp(-v*(z-H4)*e))))));
c4(isinf(c4))=0; c4(isnan(c4))=0;
c5 = 1000*Q5*e./(4*pi*(xx5>0).*xx5*sqrt(Dy*Dz)*v).*exp(-v*yy5.*yy5./(4*Dy*(xx5>0.*(exp(-v*(z-H5)*e./(4*Dz*(xx5>0).*xx5)).*(exp(-v*(z-H5)*e))))));
c5(isinf(c5))=0; c5(isnan(c5))=0;
c6 = 1000*Q6*e./(4*pi*(xx6>0).*xx6*sqrt(Dy*Dz)*v).*exp(-v*yy6.*yy6./(4*Dy*(xx6>0.*(exp(-v*(z-H6)*e./(4*Dz*(xx6>0).*xx6)).*(exp(-v*(z-H6)*e))))));
c6(isinf(c6))=0; c6(isnan(c6))=0;
c7 = 1000*Q7*e./(4*pi*(xx7>0).*xx7*sqrt(Dy*Dz)*v).*exp(-v*yy7.*yy7./(4*Dy*(xx7>0.*(exp(-v*(z-H7)*e./(4*Dz*(xx7>0).*xx7)).*(exp(-v*(z-H7)*e))))));
c7(isinf(c7))=0; c7(isnan(c7))=0;
c8 = 1000*Q8*e./(4*pi*(xx8>0).*xx8*sqrt(Dy*Dz)*v).*exp(-v*yy8.*yy8./(4*Dy*(xx8>0.*(exp(-v*(z-H8)*e./(4*Dz*(xx8>0).*xx8)).*(exp(-v*(z-H8)*e))))));
c8(isinf(c8))=0; c8(isnan(c8))=0;
c9 = 1000*Q9*e./(4*pi*(xx9>0).*xx9*sqrt(Dy*Dz)*v).*exp(-v*yy9.*yy9./(4*Dy*(xx9>0.*(exp(-v*(z-H9)*e./(4*Dz*(xx9>0).*xx9)).*(exp(-v*(z-H9)*e))))));
c9(isinf(c9))=0; c9(isnan(c9))=0;
c10 = 1000*Q10*e./(4*pi*(xx10>0).*xx1*sqrt(Dy*Dz)*v).*exp(-v*yy10.*yy10./(4*Dy*(xx10>0.*(exp(-v*(z-H10)*e./(4*Dz*(xx10>0).*xx10)).*(exp(-v*(z-H10)*e))))));
c10(isinf(c1))=0; c1(isnan(c1))=0;
c11 = 1000*Q11*e./(4*pi*(xx11>0).*xx11*sqrt(Dy*Dz)*v).*exp(-v*yy11.*yy11./(4*Dy*(xx11>0.*(exp(-v*(z-H11)*e./(4*Dz*(xx11>0).*xx11)).*(exp(-v*(z-H11)*e))))));
c11(isinf(c11))=0; c11(isnan(c11))=0;
c12 = 1000*Q12*e./(4*pi*(xx12>0).*xx12*sqrt(Dy*Dz)*v).*exp(-v*yy12.*yy12./(4*Dy*(xx12>0.*(exp(-v*(z-H12)*e./(4*Dz*(xx12>0).*xx12)).*(exp(-v*(z-H12)*e))))));
c12(isinf(c12))=0; c12(isnan(c12))=0;
c = c1 + c2 + c3 + c4 + c5 + c6 + c7 + c8 + c9 + c10 + c11 + c12;
if gplot
    for i = 1:10:100
        plot (c(i,:)); hold on;
    end
end
if gcont
    figure;
    if gcont > 1
        contourf (x,y,c); colorbar;
    else
        contour (x,y,c);
    end
end
clc
 

Please Help me!!

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Muhammad Fauzan 2021년 7월 28일

https://www.youtube.com/watch?v=SXr0L4P7TEc

that's the link to the video

DGM 2021년 7월 28일

My connection is too garbage right now to deal with YouTube, but it might help others if you post a link to the video (or tutorial page if it's embedded somewhere).

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Answer 1

Stephen23 2021년 7월 28일

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이 답변에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/887579-how-can-i-change-the-line-color-in-a-graph-using-plot#answer_755569

편집: Stephen23 2021년 7월 28일

You are using MATLAB R2014a, which uses the old graphics system.

That YouTube tutorial uses R2015b, which includes a totally new new graphics system with new features and default settings. The new graphics system (aka "HG2") was introduced in R2014b:

https://blogs.mathworks.com/loren/2014/10/03/matlab-r2014b-graphics-part-1-features-of-the-new-graphics-system/

https://blogs.mathworks.com/loren/2014/10/14/matlab-r2014b-graphics-part-2-using-graphics-objects/

https://blogs.mathworks.com/loren/2014/11/05/matlab-r2014b-graphics-part-3-compatibility-considerations-in-the-new-graphics-system/

It is expected that these two versions will produce quite different looking graphics. You will have to look at the help for your installed MATLAB to know how to change the plot color and everything else too (and not just follow the tutorial which uses a totally different graphics system with different default colors, nor use the online documentation).

For many years the MATLAB documentation had a few pages explaining these changes, but these have since been removed and are now only viewable via internet archives, e.g.:

http://web.archive.org/web/20141003203359/https://www.mathworks.com/help/matlab/graphics-changes-in-r2014b.html

http://web.archive.org/web/20141008194320/http://www.mathworks.com/help/matlab/graphics_transition/major-changes-in-graphics-version-2.html