How to plot a 3D graph

31 Jan 2018
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Updated 31 Jan 2018
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I am attempting to plot a mesh 3D graph that displays how Y_B varies with t and T. I then want to solve this graph to find the coordinates that gives the maximum value of Y_B. This is the code to give a graph that displays how T varies with Y_B for different variables for t
if true
% code
T=600:10:850;
t = 1;
k1 = 10^7.*exp(-12700./T);
k2 = 5*10^4.*exp(-10800./T);
k3 = 7*10^7.*exp(-15000./T);
t=1:2:20;
hold on;
for i=1:numel(t)
Y_B = (k1.*t(i).*(k1+k3))./(((k2.*t(i))+1).*(k1+k3).*(1+(t(i).*(k1+k3))));
plot(T,Y_B);
end
How do I transform this into a 3D plot for t = 0.2:20 and T = 600:850

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Star Strider
Star Strider on 31 Jan 2018
What is ‘T’?
What is its range?
How does it enter into the calculation of ‘Y_B’?
sophp
sophp on 31 Jan 2018
T changes the value of k1, k2 and k3
k1 = 10^7.*exp(-12700./T);
k2 = 5*10^4.*exp(-10800./T);
k3 = 7*10^7.*exp(-15000./T);
Its range is 600 to 850
Y_B is given by
Y_B = (k1.*t.*(k1+k3))./(((k2.*t+1).*(k1+k3).*(1+(t.*(k1+k3))));
The range of t is 0.2 to 20

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 Accepted Answer

Star Strider
Star Strider on 31 Jan 2018

0 votes

Use meshgrid to create matrices for ‘t’ and ‘T’, and remove the subscripts from the ‘Y_B’ calculation:
T=600:10:850;
t=1:2:20;
[tm,Tm] = meshgrid(t, T);
k1 = 10^7.*exp(-12700./Tm);
k2 = 5*10^4.*exp(-10800./Tm);
k3 = 7*10^7.*exp(-15000./Tm);
Y_B = (k1.*tm.*(k1+k3))./(((k2.*tm)+1).*(k1+k3).*(1+(tm.*(k1+k3))));
figure(1)
surf(t,T,Y_B)
grid on
xlabel('t')
ylabel('T')
zlabel('Y\_B')

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sophp
sophp on 31 Jan 2018
Thanks Star Strider! I found another question you answered regarding finding the maximum point for a 3D plot. Using your code, but changing the variables
Y_Bmax = max(Y_B(:));
[Y_Bmax,Idx] = max(Y_B(:));
[Y_BmaxRow,Y_BmaxCol] = ind2sub(size(Y_B), Idx);
However it is not printing the indices of the maximum plot. It may be the case that the max value of Y_B occurs at a range of values. Is there a function which tells me these values?
Star Strider
Star Strider on 31 Jan 2018
As always, my pleasure!
There seems to be only one maximum. (I used find here to be sure.) It plots as a solid red upward-pointing triangle with this code:
Y_Bmax = max(Y_B(:));
Idx = find(Y_B(:) == Y_Bmax);
[Y_BmaxRow,Y_BmaxCol] = ind2sub(size(Y_B), Idx);
figure(1)
surf(t,T,Y_B)
hold on
plot3(tm(Y_BmaxRow,Y_BmaxCol), Tm(Y_BmaxRow,Y_BmaxCol), Y_B(Y_BmaxRow,Y_BmaxCol), '^r', 'MarkerFaceColor','r')
hold off
grid on
xlabel('t')
ylabel('T')
zlabel('Y\_B')
view(40, 45)
To use my code to plot the maximum, it is necessary to use the matrix arguments ‘tm’ and ‘Tm’ in the plot3 call, not the vectors that created them.
sophp
sophp on 31 Jan 2018
I see. This works perfectly, how do I display these coordinates??
Star Strider
Star Strider on 31 Jan 2018
I would do this:
DisplayCoordinates = [tm(Y_BmaxRow,Y_BmaxCol), Tm(Y_BmaxRow,Y_BmaxCol), Y_B(Y_BmaxRow,Y_BmaxCol)]
DisplayCoordinates =
19.0000 710.0000 0.5114

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sophp
sophp
on 31 Jan 2018

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Star Strider
Star Strider
on 31 Jan 2018

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