trying to plot 3 variables in 3d

1 visualizzazione (ultimi 30 giorni)
joshua payne
joshua payne il 2 Nov 2022
Risposto: Voss il 2 Nov 2022
clc
clear all
theta= linspace(.01, .55) %for thetamax = 32 degrees
M=linspace(2,5)
gamma=1.4
lambda3=sqrt((((M.^2)-1).^2)-3.*(1+((gamma-1)/2).*(M.^2)).*(1+((gamma+1)/2).*(M.^2)).*(tan(theta)).^2);
chi=(1./(lambda3.^3)).*((((M.^2)-1).^3)-9.*(1+((gamma-1)./2).*(M.^2)).*(1+((gamma-1)/2).*(M.^2)+((gamma+1)./4).*(M.^4)).*((tan(theta)).^2));
beta= atan(((M.^2)-1+2.*lambda3.*cos((4.*pi+acos(chi))./3))./(3.*(1+((gamma-1)/2).*(M.^2)).*tan(theta)))
M1n=M.*sin(beta)
strength=1+((2*gamma)/(gamma+1)).*((M1n.^2) -1)
figure
surf(M, beta,strength)
im trying to 3d plot strength vs M and beta but it keeps saying strength isnt a matrix.

Risposta accettata

Davide Masiello
Davide Masiello il 2 Nov 2022
Modificato: Davide Masiello il 2 Nov 2022
surf can handle only matrices, so this is what you want to do
theta= linspace(.01, .55); %for thetamax = 32 degrees
M=linspace(2,5);
gamma=1.4;
lambda3=sqrt((((M.^2)-1).^2)-3.*(1+((gamma-1)/2).*(M.^2)).*(1+((gamma+1)/2).*(M.^2)).*(tan(theta)).^2);
chi=(1./(lambda3.^3)).*((((M.^2)-1).^3)-9.*(1+((gamma-1)./2).*(M.^2)).*(1+((gamma-1)/2).*(M.^2)+((gamma+1)./4).*(M.^4)).*((tan(theta)).^2));
beta= atan(((M.^2)-1+2.*lambda3.*cos((4.*pi+acos(chi))./3))./(3.*(1+((gamma-1)/2).*(M.^2)).*tan(theta)));
[M,beta] = meshgrid(M,beta);
M1n=M.*sin(beta);
strength=1+((2*gamma)/(gamma+1)).*((M1n.^2) -1)
strength = 100×100
1.0327 1.0694 1.1065 1.1443 1.1825 1.2214 1.2607 1.3007 1.3411 1.3822 1.4237 1.4659 1.5085 1.5518 1.5956 1.6399 1.6848 1.7302 1.7762 1.8227 1.8698 1.9174 1.9656 2.0144 2.0636 2.1135 2.1639 2.2148 2.2663 2.3183 1.0154 1.0515 1.0881 1.1253 1.1630 1.2013 1.2401 1.2794 1.3193 1.3598 1.4007 1.4423 1.4843 1.5269 1.5701 1.6138 1.6580 1.7028 1.7481 1.7939 1.8403 1.8873 1.9348 1.9828 2.0314 2.0805 2.1302 2.1804 2.2311 2.2824 0.9992 1.0348 1.0709 1.1075 1.1447 1.1825 1.2208 1.2596 1.2989 1.3388 1.3792 1.4201 1.4616 1.5036 1.5462 1.5893 1.6329 1.6771 1.7218 1.7670 1.8128 1.8591 1.9059 1.9533 2.0012 2.0496 2.0986 2.1481 2.1982 2.2487 0.9840 1.0191 1.0548 1.0910 1.1277 1.1649 1.2027 1.2410 1.2798 1.3192 1.3591 1.3995 1.4404 1.4819 1.5239 1.5664 1.6095 1.6531 1.6972 1.7418 1.7870 1.8327 1.8789 1.9257 1.9730 2.0208 2.0691 2.1180 2.1674 2.2173 0.9698 1.0045 1.0397 1.0755 1.1117 1.1485 1.1858 1.2237 1.2620 1.3009 1.3403 1.3802 1.4207 1.4616 1.5031 1.5451 1.5876 1.6307 1.6742 1.7183 1.7630 1.8081 1.8537 1.8999 1.9466 1.9938 2.0416 2.0899 2.1386 2.1880 0.9566 0.9909 1.0257 1.0611 1.0969 1.1333 1.1701 1.2075 1.2454 1.2839 1.3228 1.3623 1.4022 1.4427 1.4837 1.5252 1.5673 1.6098 1.6529 1.6965 1.7406 1.7852 1.8303 1.8759 1.9221 1.9688 2.0160 2.0637 2.1119 2.1606 0.9444 0.9783 1.0127 1.0477 1.0831 1.1191 1.1556 1.1925 1.2300 1.2680 1.3065 1.3456 1.3851 1.4252 1.4657 1.5068 1.5483 1.5904 1.6330 1.6761 1.7197 1.7639 1.8085 1.8536 1.8993 1.9455 1.9921 2.0393 2.0870 2.1352 0.9330 0.9666 1.0007 1.0352 1.0703 1.1059 1.1420 1.1786 1.2157 1.2534 1.2915 1.3301 1.3692 1.4089 1.4490 1.4897 1.5308 1.5725 1.6146 1.6573 1.7004 1.7441 1.7883 1.8330 1.8782 1.9239 1.9701 2.0168 2.0640 2.1117 0.9225 0.9558 0.9895 1.0238 1.0585 1.0938 1.1295 1.1658 1.2025 1.2398 1.2776 1.3158 1.3546 1.3938 1.4336 1.4738 1.5146 1.5558 1.5976 1.6399 1.6826 1.7259 1.7696 1.8139 1.8586 1.9039 1.9497 1.9959 2.0427 2.0899 0.9128 0.9458 0.9792 1.0132 1.0476 1.0826 1.1180 1.1540 1.1904 1.2273 1.2647 1.3026 1.3411 1.3800 1.4194 1.4593 1.4997 1.5405 1.5819 1.6238 1.6662 1.7091 1.7524 1.7963 1.8407 1.8855 1.9309 1.9767 2.0230 2.0699
figure
surf(M, beta,strength)

Più risposte (1)

Voss
Voss il 2 Nov 2022
clc
clear all
theta= linspace(.01, .55); %for thetamax = 32 degrees
M=linspace(2,5);
gamma=1.4;
lambda3=sqrt((((M.^2)-1).^2)-3.*(1+((gamma-1)/2).*(M.^2)).*(1+((gamma+1)/2).*(M.^2)).*(tan(theta)).^2);
chi=(1./(lambda3.^3)).*((((M.^2)-1).^3)-9.*(1+((gamma-1)./2).*(M.^2)).*(1+((gamma-1)/2).*(M.^2)+((gamma+1)./4).*(M.^4)).*((tan(theta)).^2));
beta= atan(((M.^2)-1+2.*lambda3.*cos((4.*pi+acos(chi))./3))./(3.*(1+((gamma-1)/2).*(M.^2)).*tan(theta)));
% transpose beta to get the appropriate matrix M1n:
M1n=M.*sin(beta.')
M1n = 100×100
1.0139 1.0293 1.0447 1.0600 1.0754 1.0907 1.1061 1.1215 1.1368 1.1522 1.1676 1.1829 1.1983 1.2137 1.2290 1.2444 1.2597 1.2751 1.2905 1.3058 1.3212 1.3366 1.3519 1.3673 1.3826 1.3980 1.4134 1.4287 1.4441 1.4595 1.0066 1.0218 1.0371 1.0523 1.0676 1.0828 1.0981 1.1133 1.1286 1.1438 1.1591 1.1743 1.1896 1.2048 1.2201 1.2353 1.2506 1.2658 1.2811 1.2963 1.3116 1.3269 1.3421 1.3574 1.3726 1.3879 1.4031 1.4184 1.4336 1.4489 0.9996 1.0148 1.0299 1.0451 1.0602 1.0754 1.0905 1.1057 1.1208 1.1360 1.1511 1.1662 1.1814 1.1965 1.2117 1.2268 1.2420 1.2571 1.2723 1.2874 1.3026 1.3177 1.3329 1.3480 1.3631 1.3783 1.3934 1.4086 1.4237 1.4389 0.9931 1.0082 1.0232 1.0383 1.0533 1.0683 1.0834 1.0984 1.1135 1.1285 1.1436 1.1586 1.1737 1.1887 1.2038 1.2188 1.2339 1.2489 1.2640 1.2790 1.2941 1.3091 1.3241 1.3392 1.3542 1.3693 1.3843 1.3994 1.4144 1.4295 0.9870 1.0019 1.0169 1.0318 1.0468 1.0617 1.0767 1.0917 1.1066 1.1216 1.1365 1.1515 1.1664 1.1814 1.1963 1.2113 1.2262 1.2412 1.2562 1.2711 1.2861 1.3010 1.3160 1.3309 1.3459 1.3608 1.3758 1.3907 1.4057 1.4207 0.9812 0.9961 1.0110 1.0258 1.0407 1.0556 1.0704 1.0853 1.1002 1.1150 1.1299 1.1448 1.1596 1.1745 1.1894 1.2042 1.2191 1.2340 1.2488 1.2637 1.2786 1.2934 1.3083 1.3232 1.3380 1.3529 1.3678 1.3826 1.3975 1.4124 0.9759 0.9907 1.0054 1.0202 1.0350 1.0498 1.0646 1.0794 1.0942 1.1089 1.1237 1.1385 1.1533 1.1681 1.1829 1.1977 1.2124 1.2272 1.2420 1.2568 1.2716 1.2864 1.3012 1.3159 1.3307 1.3455 1.3603 1.3751 1.3899 1.4047 0.9709 0.9856 1.0003 1.0150 1.0297 1.0444 1.0591 1.0738 1.0885 1.1033 1.1180 1.1327 1.1474 1.1621 1.1768 1.1915 1.2062 1.2209 1.2356 1.2504 1.2651 1.2798 1.2945 1.3092 1.3239 1.3386 1.3533 1.3680 1.3827 1.3975 0.9662 0.9809 0.9955 1.0101 1.0248 1.0394 1.0541 1.0687 1.0833 1.0980 1.1126 1.1273 1.1419 1.1565 1.1712 1.1858 1.2004 1.2151 1.2297 1.2444 1.2590 1.2736 1.2883 1.3029 1.3176 1.3322 1.3468 1.3615 1.3761 1.3908 0.9619 0.9765 0.9911 1.0056 1.0202 1.0348 1.0494 1.0639 1.0785 1.0931 1.1077 1.1222 1.1368 1.1514 1.1660 1.1805 1.1951 1.2097 1.2243 1.2388 1.2534 1.2680 1.2826 1.2971 1.3117 1.3263 1.3409 1.3554 1.3700 1.3846
strength=1+((2*gamma)/(gamma+1)).*((M1n.^2) -1);
figure
surf(M, beta,strength)
xlabel('M')
ylabel('beta')
zlabel('strength')

Prodotti


Release

R2020a

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by