table from the variable from the loop

4 views (last 30 days)
Alina Abdikadyr
Alina Abdikadyr on 30 Mar 2023
Edited: Matt J on 30 Mar 2023
Hello everyone, could you please help me how to calculate the table from the generated variables from the loop
For example, from the second loop, the table with a colums of V, D, F, W, t
my code is :
clear all; close all
W_takeoff = 10000;
W_landing=6000;
S = 20;
AR = 5;
cd0 = 0.02;
k = 1/pi/AR;
RC=0.51;
clalpha = 2*pi;
amin=2;
astall=12;
rho=1;
ct=0.001;
figure(1);hold on; xlabel('V');ylabel('D')
figure(2);hold on; xlabel('V');ylabel('D')
figure(3);hold on; xlabel('V');ylabel('P')
figure(4);hold on; xlabel('V');ylabel('P')
figure(5);hold on; xlabel('\alpha');ylabel('c_l/c_d^2')
i=0;
for alpha = amin:0.25:astall
i=i+1;
cl(i) = clalpha * alpha * pi/180;
V_takeoff(i) = sqrt(2*W_takeoff/rho/S/cl(i));
V_landing(i) = sqrt(2*W_landing/rho/S/cl(i));
cd(i) = cd0 + k * cl(i) * cl(i);
D_takeoff(i) = 0.5 * rho * V_takeoff(i) * V_takeoff(i) * S * cd(i);
D_landing(i) = 0.5 * rho * V_landing(i) * V_landing(i) * S * cd(i);
p_takeoff(i) = D_takeoff(i)*V_takeoff(i);
p_landing(i) = D_landing(i)*V_landing(i);
P_takeoff(i)=20000+500*V_takeoff(i);
T_takeoff(i)=20000/V_takeoff(i)+500;
P_landing(i)=20000+500*V_landing(i);
T_landing(i)=20000/V_landing(i)+500;
cl_cd2(i)=cl(i)/(cd(i)*cd(i));
ang(i)=alpha;
end
figure(1); plot(V_takeoff,D_takeoff)
hold on
plot(V_takeoff,T_takeoff)
title(['Takeoff'])
figure(2); plot(V_landing,D_landing)
hold on
plot(V_landing,T_landing)
title(['Landing'])
figure(3); plot(V_takeoff,p_takeoff)
hold on
plot(V_takeoff,P_takeoff)
title(['Takeoff'])
figure(4); plot(V_landing,p_landing)
hold on
plot(V_landing,P_landing)
title(['Landing'])
figure(5); plot(ang,cl_cd2);
alpha_max=3;
cl_max=clalpha*alpha_max*pi/180;
cd_max = cd0 + k * cl_max * cl_max;
j=0;
for w=W_takeoff:-50:W_landing
j=j+1;
V(j) = sqrt(2*w/rho/S/cl_max);
D(j) = 0.5 * rho * V(j) * V(j) * S * cd_max;
T(j)=D(j); %for steady level flight condition
F(j)=ct*T(j); %fuel consumption
Weight(j)=w;
t(j)=abs((Weight(j)-10000))/F(j);
R(j)=V(j)*t(j);
end
[max_delta,idelta] = max(abs(D_takeoff-T_takeoff));
figure(6); plot(t,V)
figure(7); plot(t,F);
figure(8); plot(t,R);

Sign in to answer this question.

Accepted Answer

Matt J
Matt J on 30 Mar 2023
Edited: Matt J on 30 Mar 2023
j=0;
for w=W_takeoff:-50:W_landing
j=j+1;
V(j,1) = sqrt(2*w/rho/S/cl_max);
D(j,1) = 0.5 * rho * V(j) * V(j) * S * cd_max;
T(j,1)=D(j); %for steady level flight condition
F(j,1)=ct*T(j); %fuel consumption
Weight(j,1)=w;
t(j,1)=abs((Weight(j)-10000))/F(j);
R(j,1)=V(j)*t(j);
end
W=Weight;
T=table(V, D, F, W, t)
T =
81×5 table
V D F W t
______ ______ _______ _____ ______
55.133 817.37 0.81737 10000 0
54.995 813.28 0.81328 9950 61.479
54.857 809.19 0.80919 9900 123.58
54.718 805.11 0.80511 9850 186.31
54.579 801.02 0.80102 9800 249.68
: : : : :
43.412 506.77 0.50677 6200 7498.5
43.236 502.68 0.50268 6150 7658.9
43.06 498.59 0.49859 6100 7822
42.883 494.51 0.49451 6050 7987.8
42.706 490.42 0.49042 6000 8156.3

More Answers (0)

Categories

Find more on Manage Products in Help Center and File Exchange

Tags

Products


Release

R2022b

Community Treasure Hunt

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

Start Hunting!