Diferencia entre revisiones de «Dibujar un sólido 2-D»
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== MATLAB code == | == MATLAB code == | ||
{{matlab|codigo= | {{matlab|codigo= | ||
| − | x=-0.5:0.1:0.5; % sampling of the interval [-1/2,1/2]y=0:0.1:2; % sampling of the interval [0,2][xx,yy]=meshgrid(x,y); % matrixes of x and y | + | x=-0.5:0.1:0.5; % sampling of the interval [-1/2,1/2] |
| + | y=0:0.1:2; % sampling of the interval [0,2][xx,yy]=meshgrid(x,y); % matrixes of x and y coordinates | ||
| + | figure(1) | ||
| + | mesh(xx,yy,0*xx) % Draw the mesh | ||
| + | axis([-2,2,-1,3]) % select region for drawing | ||
| + | view([0,0,1]) % See the pisture from the top | ||
}} | }} | ||
[[Categoría:Curso ICE]] | [[Categoría:Curso ICE]] | ||
Revisión del 18:30 16 nov 2013
We show how to draw meshes of plane regions, representing solids, with Octave UPM. The objective is to be able of visualizing physical quantities in the mesh points. We start with the simplest example, the rectangle [math] [-1/2,1/2]\times [0,2][/math]. We follow the steps:
- We introduce a sampling of the two segments with a suitable step
- With meshgrid command we define two matrixes with the x and y coordenates of the mesh points
- We use the mesh command to draw the mesh and adjunst the axis. We see the mesh from the top.
The Octave code is:
MATLAB code
x=-0.5:0.1:0.5; % sampling of the interval [-1/2,1/2]
y=0:0.1:2; % sampling of the interval [0,2][xx,yy]=meshgrid(x,y); % matrixes of x and y coordinates
figure(1)
mesh(xx,yy,0*xx) % Draw the mesh
axis([-2,2,-1,3]) % select region for drawing
view([0,0,1]) % See the pisture from the top
