how to modify a plot

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Alina Abdikadyr
Alina Abdikadyr il 17 Feb 2023
Commentato: Star Strider il 19 Feb 2023
Hello, please could you help me with a code?
So I plotted a graph, and I need to continue my orange and yellow line until the green line and shade the region?
clear all
W=45000;
S=9;
b=7.5;
clmax=2;
clmin=-1;
nmax=4;
AR=7;
nmin=-3;
clalpha = 2*pi;
Vdive=290;
Vstall=sqrt(2*W/(1.225*S*clmax));
cd0 = 0.005;
k = 1/pi/AR;
n1v = 0:0.25:4;
i=0;
for n1 = 0:0.25:4
i=i+1;
V(i) = sqrt(2*n1*W/1.225/S/clmax);
nmaxx(i)=nmax;
nminn(i)=nmin;
end
j=0;
n2v = -3:0.25:0;
for n2 = -3:0.25:0
j=j+1;
V2(j) = sqrt(2*n2*W/1.225/S/clmin);
nmaxx(j)=nmax;
nminn(j)=nmin;
end
k=0;
nv=-3:0.25:4;
for n=-3:0.25:4
k=k+1;
Vmax(k)=Vdive;
end
figure(5); plot(V,n1v)
hold on
plot(V,nmaxx)
hold on
plot(V,nminn)
hold on
plot(V2,n2v);
plot(Vmax,nv);
xlim([-1 400]);
ylim([-5 5]);

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Risposta accettata

Star Strider
Star Strider il 17 Feb 2023
Ran in:
Extending the lines is straightforward.
What region do you want to shade? I created patch objects for all of them, so choose the ones you want. You can turn off the edges of the patch objects wiby adding 'EdgeColor','none' to their arguments.
clear all
W=45000;
S=9;
b=7.5;
clmax=2;
clmin=-1;
nmax=4;
AR=7;
nmin=-3;
clalpha = 2*pi;
Vdive=290;
Vstall=sqrt(2*W/(1.225*S*clmax));
cd0 = 0.005;
k = 1/pi/AR;
n1v = 0:0.25:4;
i=0;
for n1 = 0:0.25:4
i=i+1;
V(i) = sqrt(2*n1*W/1.225/S/clmax);
nmaxx(i)=nmax;
nminn(i)=nmin;
end
j=0;
n2v = -3:0.25:0;
for n2 = -3:0.25:0
j=j+1;
V2(j) = sqrt(2*n2*W/1.225/S/clmin);
nmaxx(j)=nmax;
nminn(j)=nmin;
end
k=0;
nv=-3:0.25:4;
for n=-3:0.25:4
k=k+1;
Vmax(k)=Vdive;
end
figure(5); plot(V,n1v, 'DisplayName','n1v')
hold on
plot([V Vmax(end)],[nmaxx nmaxx(end)], 'DisplayName','nmaxx')
hold on
plot([V Vmax(end)],[nminn nminn(end)], 'DisplayName','nminn')
hold on
plot(V2,n2v, 'DisplayName','n2v');
plot(Vmax,nv, 'DisplayName','nv');
xlim([-1 400]);
ylim([-5 5]);
patch([Vmax(end) V2 flip(V2) Vmax(end)], [zeros(size([n2v n2v(1)])) flip(n2v) n2v(1)], 'm', 'FaceAlpha',0.25)
patch([V Vmax(end) Vmax(end) flip(V)], [zeros(size([n1v n1v(end)])) n1v(end) flip(n1v)], 'c', 'FaceAlpha',0.25)
patch([V2 flip(V2)], [ones(size(n2v))*min(n2v) flip(n2v)], 'g', 'FaceAlpha',0.25)
patch([V flip(V)], [n1v ones(size(n1v))*max(n1v)], [0.8 0.4 0.2], 'FaceAlpha',0.25)
The patch pbjects were a bit of a challenge because the vectors creating them were not as I expected them to be. You can identify them by their colours.
.
  2 Commenti
Alina Abdikadyr
Alina Abdikadyr il 17 Feb 2023
Sorry, I added one more vertical line, how to use the patch to shade the region?
My code is :
%3.2
clear all
W=45000;
S=9;
b=7.5;
clmax=2;
clmin=-1;
nmax=4;
AR=7;
nmin=-3;
clalpha = 2*pi;
Vdive=290;
Vstall=sqrt(2*W/(1.225*S*clmax));
cd0 = 0.005;
k = 1/pi/AR;
n1v = 0:0.25:4;
i=0;
for n1 = 0:0.25:4
i=i+1;
V(i) = sqrt(2*n1*W/1.225/S/clmax);
nmaxx(i)=nmax;
nminn(i)=nmin;
end
j=0;
n2v = -3:0.25:0;
for n2 = -3:0.25:0
j=j+1;
V2(j) = sqrt(2*n2*W/1.225/S/clmin);
nmaxx(j)=nmax;
nminn(j)=nmin;
end
k=0;
nv=-3:0.25:4;
for n=-3:0.25:4
k=k+1;
Vmax(k)=Vdive;
end
m=0;
n3v=-3:0.25:4;
for n3=-3:0.25:4
m=m+1;
Vstall1(m)=Vstall;
end
figure(5); plot(V,n1v, 'DisplayName','n1v')
hold on
plot([V Vmax(end)],[nmaxx nmaxx(end)], 'DisplayName','nmaxx')
hold on
plot([V Vmax(end)],[nminn nminn(end)], 'DisplayName','nminn')
hold on
plot(V2,n2v, 'DisplayName','n2v');
plot(Vmax,nv, 'DisplayName','nv');
hold on
plot(Vstall1,n3v, 'DisplayName','n3v');
xlim([-1 325]);
ylim([-4 5]);
patch([Vmax(end) V2 flip(V2) Vmax(end)], [zeros(size([n2v n2v(1)])) flip(n2v) n2v(1)], 'm', 'FaceAlpha',0.25)
patch([V Vmax(end) Vmax(end) flip(V)], [zeros(size([n1v n1v(end)])) n1v(end) flip(n1v)], 'm', 'FaceAlpha',0.25)
Star Strider
Star Strider il 19 Feb 2023
See my Comment to your other Question.

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Più risposte (1)

Sulaymon Eshkabilov
Sulaymon Eshkabilov il 17 Feb 2023
Modificato: Sulaymon Eshkabilov il 17 Feb 2023
Ran in:
This is how it can be attained:
clear all
W=45000;
S=9;
b=7.5;
clmax=2;
clmin=-1;
nmax=4;
AR=7;
nmin=-3;
clalpha = 2*pi;
Vdive=290;
Vstall=sqrt(2*W/(1.225*S*clmax));
cd0 = 0.005;
k = 1/pi/AR;
n1v = 0:0.25:4;
i=0;
for n1 = 0:0.25:4
i=i+1;
V(i) = sqrt(2*n1*W/1.225/S/clmax);
nmaxx(i)=nmax;
nminn(i)=nmin;
end
j=0;
n2v = -3:0.25:0;
for n2 = -3:0.25:0
j=j+1;
V2(j) = sqrt(2*n2*W/1.225/S/clmin);
nmaxx(j)=nmax;
nminn(j)=nmin;
end
k=0;
nv=-3:0.25:4;
for n=-3:0.25:4
k=k+1;
Vmax(k)=Vdive;
end
%%
figure(5);
plot(V,n1v, 'r-')
hold on
V1 = [V, Vmax(1)];
Nm1 = [nmaxx, nmaxx(1)];
plot(V1,Nm1, 'b-')
hold on
V1 = [V, Vmax(1)];
Nm2 = [nminn, nminn(end)];
plot(V1,Nm2, 'k-')
hold on
plot(V2,n2v, 'm-');
plot(Vmax,nv, 'g-', 'linewidth', 2);
xlim([-1 400]);
ylim([-5 5]);

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