# Plot heat conduction temperature at various radii with Matlab

I have an array in Matlab that is updated for every time step: each row corresponds to a time and each column represents a temperature at a certain radius from the center. It would also be handy if a color gradient could be applied to the plot using the `meshgrid` and `contourf` commands. So far, this is the Matlab code that I have, but I am not sure how to get the temperature into the plot and animate the change in temperature.

``````Tinf = 200;  % ambient temperature

%        t = time
%        rows = time

%    r1   r2    r3    r4    r5
T = [98   105   110   118   128;  % t=1
109  110   117   124   134;  % t=2
110  118   120   130   144]; % t=3

r = 0.08;  % radius of circle

rx = -r:0.01:r;
ry = r:-0.01:-r;

[x_coor, y_coor] = meshgrid(rx, ry);

figure(1)
``````

I am trying to create a circular plot in Matlab that would show the temperature (color) at each radius and animate that temperature (change color) as it increases or decreases with time.

An example of such a plot at a certain time would be:

So column 1 in the T array corresponds to node 1 in the picture, column 2 corresponds to node 2, etc. Thus at time = 0 then node1 = 98, node2 = 105, node3 = 110, node4 = 118, node5 = 128; at time = 1 then node1 = 109, node2 = 110, node3 = 117, node4 = 124, node5 = 134; and so on.

Any suggestions to accomplish such a plot would be very helpful.

-

Same as @Magla's nice answer but draws a single surface (not an overlay) allowing interpolation

``````T = [98   105   110   118   128;
109  110   117   124   134;
114  118   120   130   138];

Rmax = 30;
[x,y,z] = sphere(100);
x=x*Rmax;
y=y*Rmax;

rxy2 = x.^2+y.^2;

r = [0 10 20 30];
r2 = r.^2;

figure('Color', 'w');

for ind_t = 1:size(T,1)
for ii = 1:length(r2)-1
ir_find = find(rxy2<=r2(ii+1) & rxy2>r2(ii));
z(ir_find) = T(ind_t,ii);
end

hax = axes('Position',[0 0 1 1]);
h = surf(x,y,z)  % sphere centered at origin

set(h, 'EdgeColor', 'None');

view(0,90);
axis equal;
set(hax, 'Visible', 'Off', 'CLim', [min(T(:)) max(T(:))]);
pause(0.5);
end
``````

edit

Rewrote to use meshgrid and to use the particular radii etc of interest. Make sure to adjust r_res to a value you find adequate.

``````T = [98   105   110   118   128;
109  110   117   124   134;
114  118   120   130   138];

%---------------------------------------
r = 0.08;  % radius of circle

r_res = 0.0005;

rx = -r:r_res:r;
ry = rx;

[x, y] = meshgrid(rx, ry);

rxy2 = x.^2+y.^2;
z=ones(size(rxy2))*NaN;

%---------------------------------------

Nshells = size(T,2);
r = [0:1/Nshells:1]*r;
r2 = r.^2;

figure('Color', 'w');
colormap hot

for ind_t = 1:size(T,1)
for ii = 1:Nshells
ir_find = find(rxy2<=r2(ii+1) & rxy2>r2(ii));
z(ir_find) = T(ind_t,ii);
end

hax = axes('Position',[0 0 1 1]);
h = surf(x,y,z)  % sphere centered at origin

set(h, 'EdgeColor', 'None');

view(0,90);
axis equal;
set(hax, 'Visible', 'Off', 'CLim', [min(T(:)) max(T(:))]);
pause(0.5);
end
``````
-
Please see my updated answer with some code added. I'm trying to use the `meshgrid` and `contourf` commands. –  Gavin Aug 23 '13 at 0:42
@Gavin I updated the code, take a look... –  Try Hard Aug 23 '13 at 14:02
I replaced the `surf` command with `contourf`. And deleted the lines `shading interp`, `set(h,...)`, and `view(...)` and everything works fine. All I have to do now is figure out how to display the x and y axes and I'll be set. Thanks for the help! –  Gavin Aug 24 '13 at 15:01
@Gavin I overlooked that you wanted to use `contourf`! Glad otherwise to help. –  Try Hard Aug 24 '13 at 17:54

Here is a solution that makes use of `sphere`. `sphere` generates the matrices `x` and `y` that are multiply by a decreasing radius `r`, and matrix `z` that is reduced to a single value (a sphere becomes a disk). `z` is multiplied by the temperature and disks are plotted on top of each other. Colors depend on the `min` and `max` of the whole input matrix. Animation is done with `pause`.

``````T = [98   105   110   118   128;
109  110   117   124   134;
114  118   120   130   138];

[x,y,z] = sphere(100);
r = [50 40 30 20 10];

figure('Color', 'w');

for ind_t = 1:size(T,1)

hax = axes('Position',[0 0 1 1]);

for ii = 1:length(r)
h = surf(x*r(ii),y*r(ii),z*0+T(ind_t,ii))  % sphere centered at origin
set(h, 'EdgeColor', 'None');
hold on;
end

view(0,90);
axis equal;
set(hax, 'Visible', 'Off', 'CLim', [min(T(:)) max(T(:))]);
pause(0.5);

end
``````

This gives

-
There is no gradient in `contourf`. The help file says "areas between the isolines are plotted using constant colors corresponding to the current figure's colormap". You probably want to have a `Z` data that fills a 2D `meshgrid` with a particular function - a function that handles gradients. Is that right? –  Macduff Aug 21 '13 at 8:53
Nice, but the temperatures increase as you go down a column... use size(T,1) instead? –  Try Hard Aug 21 '13 at 9:19
@Try Hard - yes, thanks! - mixed up the dimensions. Answer edited! –  Macduff Aug 21 '13 at 9:37
@Magla Would it be possible to use the `meshgrid` to setup the coordinates from using the radii and then use the `contourf` command to plot using the `meshgrid` coordinates and the temperature array? –  Gavin Aug 21 '13 at 23:31
`contourf` is used to segment continuous data - usually produced by `meshgrid`. The matrix you have is more discrete than continuous (some kind of five-tiered cake, which means that your data is already segmented). `surf` is more appropriate in this case. If you want to use `contourf` and `meshgrid`, your data need to be interpolated (`griddata`) but I am not sure that you want that. –  Macduff Aug 22 '13 at 8:40
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