How to plot the values found in a for loop?

24 Sept. 2020
1 Respuesta
Actualizado a las 24 Sept. 2020
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I have the following code
for g=((-3*pi())/2):0.1:0
Ebca=X*(Ex*cos((pi()/6)+g)^2+Ey*sin((pi()/6)+g)^2+Gamxy*sin((pi()/6)+g)*cos((pi()/6)+g))
Ebcb=Ex*cos(-(pi()/6)+g)^2+Ey*sin(-(pi()/6)+g)^2+Gamxy*sin(-(pi()/6)+g)*cos(-(pi()/6)+g);
Ebcc=Ex*cos((pi()/2)+g)^2+Ey*sin((pi()/2)+g)^2+Gamxy*sin((pi()/2)+g)*cos((pi()/2)+g);
end
I need to plot each Ebca, Ebcb, Ebcc value found in the loop with respect to g, how would i do this?
I know i need to create an array with the values found for each function with each value of g but I do no know how to do this.

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Respuestas (1)

David Hill
David Hill el 24 de Sept. de 2020

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Are X, Ex, Ey, Gamxy constants not listed? Recommned executing without loop; otherwise you need to index Ebca/Ebcb/Ebcc. Currently you are overriding them during each loop execution.
g=-3*pi/2:0.1:0
Ebca=X*(Ex*cos((pi/6)+g).^2+Ey*sin((pi/6)+g).^2+Gamxy*sin((pi/6)+g).*cos((pi/6)+g));
Ebcb=Ex*cos(-(pi/6)+g).^2+Ey*sin(-(pi/6)+g).^2+Gamxy*sin(-(pi/6)+g).*cos(-(pi/6)+g);
Ebcc=Ex*cos((pi/2)+g).^2+Ey*sin((pi/2)+g).^2+Gamxy*sin((pi/2)+g).*cos((pi/2)+g);
plot(g,Ebca,g,Ebcb,g,Ebcc);

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Nick Kavouris
Nick Kavouris el 24 de Sept. de 2020
these constants were found in an earlier part of the code
Here is the full code to this part
%% Part E
for g=(pi()/3)
Eaa=Ex*cos((pi()/6)+g)^2+Ey*sin((pi()/6)+g)^2+Gamxy*sin((pi()/6)+g)*cos((pi()/6)+g);
Eab=Ex*cos(-(pi()/6)+g)^2+Ey*sin(-(pi()/6)+g)^2+Gamxy*sin(-(pi()/6)+g)*cos(-(pi()/6)+g);
Eac=Ex*cos((pi()/2)+g)^2+Ey*sin((pi()/2)+g)^2+Gamxy*sin((pi()/2)+g)*cos((pi()/2)+g);
end
for g=(-pi()/6)
Eba=Ex*cos((pi()/6)+g)^2+Ey*sin((pi()/6)+g)^2+Gamxy*sin((pi()/6)+g)*cos((pi()/6)+g);
Ebb=Ex*cos(-(pi()/6)+g)^2+Ey*sin(-(pi()/6)+g)^2+Gamxy*sin(-(pi()/6)+g)*cos(-(pi()/6)+g);
Ebc=Ex*cos((pi()/2)+g)^2+Ey*sin((pi()/2)+g)^2+Gamxy*sin((pi()/2)+g)*cos((pi()/2)+g);
end
for g=(pi()/2)
Eaba=Ex*cos((pi()/6)+g)^2+Ey*sin((pi()/6)+g)^2+Gamxy*sin((pi()/6)+g)*cos((pi()/6)+g);
Eabb=Ex*cos(-(pi()/6)+g)^2+Ey*sin(-(pi()/6)+g)^2+Gamxy*sin(-(pi()/6)+g)*cos(-(pi()/6)+g);
Eabc=Ex*cos((pi()/2)+g)^2+Ey*sin((pi()/2)+g)^2+Gamxy*sin((pi()/2)+g)*cos((pi()/2)+g);
end
g=((-3*pi())/2):0.1:0
Ebca=(Ex*cos((pi()/6)+g)^2+Ey*sin((pi()/6)+g)^2+Gamxy*sin((pi()/6)+g)*cos((pi()/6)+g));
Ebcb=Ex*cos(-(pi()/6)+g)^2+Ey*sin(-(pi()/6)+g)^2+Gamxy*sin(-(pi()/6)+g)*cos(-(pi()/6)+g);
Ebcc=Ex*cos((pi()/2)+g)^2+Ey*sin((pi()/2)+g)^2+Gamxy*sin((pi()/2)+g)*cos((pi()/2)+g);
Nick Kavouris
Nick Kavouris el 24 de Sept. de 2020
the code you provided me worked beautifully! thank you for the assistance
David Hill
David Hill el 24 de Sept. de 2020
If you get a change, please accept the answer to close the question.

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Preguntada:

Nick Kavouris
Nick Kavouris
el 24 de Sept. de 2020

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David Hill
David Hill
el 24 de Sept. de 2020

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