How to "color" the closed area bounded by three curves
6 Ansichten (letzte 30 Tage)
Ältere Kommentare anzeigen
Hi, I want to color the area between the intersection of three curves. Please suggest a way.
T1 = 180:0.1:270;
x1 = 3*cosd(T1);
y1 = 3*sind(T1); % circle
T2 = 3.3620:0.001:3.9045;
c1 = 4.3123; c2 = -50.2708; c3 = 193.7277; c4 = -243.8411;
r_6 = c1*T2.^3 + c2*T2.^2 + c3*T2 + c4;
x2 = 1.1998 + r_6.*cos(T2);
y2 = -0.8840 + r_6.*sin(T2); % region 4
x0 = 1.8977;
y0 = 2.3235;
vr = 4.0678;
beta = atan(y0/x0);
x3 = -2.0591:0.001:-1.8541;
y3 = y0 + (x0-x3)*cot(beta) - (9.81*(x0-x3).^2)./(2*(vr*sin(beta))^2); % parabola
pgon1 = polyshape(x1,y1); % circle
pgon2 = polyshape(x2,y2); % region 4
pgon3 = polyshape(x3,y3); % parabola
pgon4 = intersect(pgon1,pgon2);
figure(4)
plot(x1, y1, x2, y2, x3, y3, 'linewidth', 2)
hold on
plot(intersect(pgon3, pgon4), 'EdgeColor', 'none')
grid on
axis equal
6 Kommentare
Star Strider
am 12 Nov. 2021
... still more problems ...
T2 = 3.3620:0.001:3.9045;
T1 = 180:0.1:270;
x1 = 3*cosd(T1); y1 = 3*sind(T1);
T2 = 3.3620:0.001:3.9045;
c1 = 4.3123; c2 = -50.2708; c3 = 193.7277; c4 = -243.8411;
r_6 = c1*T2.^3 + c2*T2.^2 + c3*T2 + c4;
x2 = 1.998 + r_6.*cos(T2); y2 = -0.8840 + r_6.*sin(T2);
x0 = 1.8977; y0 = 2.3235; vr = 4.0678;
beta = atan(y0/x0);
x3 = s2(1,1):0.001:x_t; y3 = y0 + (x0-x3)*cot(beta) - (9.81*(x0-x3).^2)./(2*(vr*sin(beta))^2);
pgon1 = polyshape(x1,y1);
pgon2 = polyshape(x2,y2);
pgon3 = polyshape(x3,y3);
figure (1)
plot(x1,y1,x2,y2,x3,y3)
hold on
plot (intersect(intersect(pgon3,pgon4)), pgon3,'EdgeColor','none')
I would really like to be able to run this in order to see what the problems are.
.
Antworten (1)
Simran
am 28 Apr. 2025
Bearbeitet: Simran
am 29 Apr. 2025
The common area between the polygons 'pgon3' and pgon4' isn't being plotted because the 'intersect' function doesn't find any common points between the 2 regions and thus returns an object having an empty matrix for 'Vertices' field, when you run
>> intersect(pgon3,pgon4)
To visualise your plots better, you can try plotting the polygon regions ('pgon1', 'pgon2' etc one after the other) and then decide which polygons to send to the 'intersect' function to compute the common points. You can refer the following code snippet:
>> figure
>> hold on
>> plot(pgon3)
>> plot(pgon1)
>> plot(pgon2)
You can refer to the below documentation links:
0 Kommentare
Siehe auch
Kategorien
Mehr zu Elementary Polygons finden Sie in Help Center und File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!

