plotting a simple Graph
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Hi everyone,
Trying to plot a graph unsucssesfully :((
alpha=2.2;
Mx0=34.8262;
My0=15.7563;
Mx=linspace(0,50,0.0001);
Interaction_Curve=(Mx./Mx0).^alpha+(My./My0).^alpha-1
plot(Interaction_Curve,Mx)
Thank You Very much
2 commentaires
madhan ravi
le 24 Déc 2019
You didn’t define My and you haven’t used the linspace() properly for Mx.
Shimon Katzman
le 24 Déc 2019
Modifié(e) : Shimon Katzman
le 24 Déc 2019
Réponse acceptée
Star Strider
le 24 Déc 2019
One problem is that ‘My’ is missing. Beyond that, the linspace arguments resulted in an empty vector for ‘Mx’.
It might be easier to plot this as an implicit function:
alpha=2.2;
Mx0=34.8262;
My0=15.7563;
Interaction_Function = @(Mx,My) (Mx./Mx0).^alpha+(My./My0).^alpha-1;
figure
fimplicit(Interaction_Function, [0 50 0 30])
ylim([0 30])
producing:
That seems to produce the sort of plot you want. Make appropriate changes to the second agrument in the fimplicit call to get the result you want.
9 commentaires
Shimon Katzman
le 24 Déc 2019
Shimon Katzman
le 24 Déc 2019
Star Strider
le 24 Déc 2019
My pleasure.
The contour function is another option.
Try this:
alpha=2.2;
Mx0=34.8262;
My0=15.7563;
Mx=linspace(0,50,25);
My=linspace(0,50,25);
[MX,MY] = meshgrid(Mx,My);
figure
contour(Interaction_Function(MX,MY), [0 0])
That should work. The contour function has been around as long as I can remember. It should allow the definition of the single contour at [0 0] in R2015a. (This imay be what the fimpllicit function does as well. It appears to produce the same plot.)
Shimon Katzman
le 24 Déc 2019
Star Strider
le 24 Déc 2019
As always, my pleasure!
I do not have ‘M_x’ and ‘M_y’, so I cannot run your latest code.
Shimon Katzman
le 24 Déc 2019
Star Strider
le 24 Déc 2019
Not immediately obvious, so it took some time.
Try this:
alpha=2.2;
Mx0=34.8262;
My0=15.7563;
Mx=linspace(0,50,25);
My=linspace(0,50,25);
Interaction_Function = @(Mx,My) (Mx./Mx0).^alpha+(My./My0).^alpha-1;
MxdivMy = @(Mx,My) Mx-3*My;
[MX,MY] = meshgrid(Mx,My);
figure
hc1 = contour(Mx, My, Interaction_Function(MX,MY), [0 0])
hc2 = contour(Mx, My, MxdivMy(MX,MY), [0 0])
xy1 = hc1(:,2:end); % ‘Interaction Function’
xy2 = fliplr(hc2(:,2:end)); % ‘MxdivMy’
[xy2u,ix] = unique(xy2(1,:), 'stable'); % Unique ‘MxdivMy’
xy2i = interp1(xy2u(1,:), xy2(2,ix), xy1(1,:)); % Interpolate To Same x-Coordinates
xy2i = [xy1(1,:); xy2i];
xint = interp1(xy1(2,:)-xy2i(2,:), xy1(1,:), 0); % Interpolate To Find X-Intercept
yint = interp1(xy1(1,:), xy1(2,:), xint); % Interpolate To Find Y-Intercept
alpha=2.2;
% Mx0=M_x;
% My0=M_y;
Mx = linspace(0,50, 1000);
My = linspace(0,50, 1000);
Interaction_Function = @(Mx,My) (Mx./Mx0).^alpha+(My./My0).^alpha-1;
figure
hold on
ez1 = ezplot(Interaction_Function,[0 40 0 20]);
MxdivMy = @(Mx,My) Mx-3*My;
ez2 = ezplot(MxdivMy, [0 40 0 20]);
plot(xint, yint, 'pr', 'MarkerSize',10, 'MarkerFaceColor','g') % Plot Intercept
grid on;
hold off
That calculates and plots the intercept.
Shimon Katzman
le 25 Déc 2019
Star Strider
le 25 Déc 2019
As always, my pleasure!
I very much appreciate your compliment!
Plus de réponses (1)
Image Analyst
le 24 Déc 2019
Try this:
alpha = 2.2;
Mx0 = 34.8262;
My0 = 15.7563;
Mx = linspace(0,50, 1000);
My = linspace(0,50, 1000); % Not sure what My should be!!!
Interaction_Curve = (Mx./Mx0).^alpha+(My./My0).^alpha-1
plot(Mx, Interaction_Curve, 'b-', 'LineWidth', 2)
grid on;
Be sure to define My because I just guessed incorrectly.
2 commentaires
Shimon Katzman
le 24 Déc 2019
Image Analyst
le 24 Déc 2019
I know. Because I don't have the value of the My variable. That's why I asked you to define it. What is it? But doesn't matter since it looks like Star figured it out.
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