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I would like to plot a plane using a vector that I calculated from 3 points where:

pointA = [0,0,0];
pointB = [-10,-20,10];
pointC = [10,20,10];

plane1 = cross(pointA-pointB, pointA-pointC)

How do I plot 'plane1' in 3D?

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i believe there is a SE site for matlab. –  j_mcnally Nov 19 '12 at 23:33
    
nope, my mistake -> area51.stackexchange.com/proposals/38040/matlab –  j_mcnally Nov 19 '12 at 23:35
    
You'll most likely need to generate a bunch of points that are in the plane, and then plot those using surf or some similar function... –  Isaac Nov 19 '12 at 23:40
2  
this might help: stackoverflow.com/questions/3461869/… –  Dimochka Nov 19 '12 at 23:56

2 Answers 2

Here's an easy way to plot the plane using fill3:

points=[pointA' pointB' pointC']; % using the data given in the question
fill3(points(1,:),points(2,:),points(3,:),'r')
grid on
alpha(0.3)

enter image description here

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fill3 take X,Y,Z as input and not 3 points. Take a look at the plane you drew, it doesn't pass through (0,0,0). You drew a plane that passes through (0,-10,10), (0, -20,20) and (0,10,10) –  Andrey Nov 20 '12 at 12:03
    
According to Matlab documentation (2nd line for fill3) "fill3(X,Y,Z,C) fills three-dimensional polygons. X, Y, and Z triplets specify the polygon vertices". I did made a mistake though in the way I input the points to fill3 (wrong dimension used), and this is now corrected. thanks for noticing. I still think a one liner is nicer than several lines... –  bla Nov 20 '12 at 16:24
    
That's ok, you got my upvote anyway, I just wanted you to correct the mistake :) –  Andrey Nov 20 '12 at 16:29

You have already calculated the normal vector. Now you should decide what are the limits of your plane in x and z and create a rectangular patch.

An explanation : Each plane can be characterized by its normal vector (A,B,C) and another coefficient D. The equation of the plane is AX+BY+CZ+D=0. Cross product between two differences between points, cross(P3-P1,P2-P1) allows finding (A,B,C). In order to find D, simply put any point into the equation mentioned above:

   D = -Ax-By-Cz;

Once you have the equation of the plane, you can take 4 points that lie on this plane, and draw the patch between them.

enter image description here

normal = cross(pointA-pointB, pointA-pointC); %# Calculate plane normal
%# Transform points to x,y,z
x = [pointA(1) pointB(1) pointC(1)];  
y = [pointA(2) pointB(2) pointC(2)];
z = [pointA(3) pointB(3) pointC(3)];

%Find all coefficients of plane equation    
A = normal(1); B = normal(2); C = normal(3);
D = -dot(normal,pointA);
%Decide on a suitable showing range
xLim = [min(x) max(x)];
zLim = [min(z) max(z)];
[X,Z] = meshgrid(xLim,zLim);
Y = (A * X + C * Z + D)/ (-B);
reOrder = [1 2  4 3];
figure();patch(X(reOrder),Y(reOrder),Z(reOrder),'b');
grid on;
alpha(0.3);
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