For loop giving me wrong values
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I am trying to find the output for different parameters. It gives me zeros for masses that can not be zero. I think I have a problem with the for loop. Please help!
Intro: I have 9 values for maximum hight, h_max, 9 values for maximum accelaration a_max, 9 values for structure margin sm_max, uploaded in the document "Data".
I also have 9 values for maximum length, L_max, 9 values for maximum diameter , D_max.
The code is functional in returning the values for
R_out
Weq_out
t_b
p_0
delta_ratio
X_CG
X_CP
But fails when it gets to
M_p
M_0
M_s
clear all
%% Calculating the outputs for all the 9 D_max, L_max
%For Rocket
%Payload mass:
M_L=1;%kg
%Number of fins:
N=3;
%Shell density:
rho_s=2700; %kg/m^3
%Propellant density:
rho_p=1772; %kg/m^3
%Shell working stress:
sig_s=60*10^6; %pa
%Gravity:
g=9.81; % m/s^2
%For air:
%Atmorspheric TeM_perature at sea level:
T_atm=298;
%Specific heat ratio of air:
gamma=1.4;
%Density of air at sea level:
rho=1.225;
%Pressure at sea level:
P_a=101325; %pa
% Here I start to run the tests for the 9 values
Data=readmatrix('Data');% Each col is 1 test
L_max = [1.0755 1.0651 1.2883 0.7842 1.4316 1.7396 1.8300 0.6058 1.7892];
D_max = [0.0929 0.0853 0.0769 0.0709 0.1065 0.0753 0.0749 0.0825 0.0957];
%Here I set up the output matrices for the loop
R_out=zeros(1,9);
Weq_out=zeros(1,9);
t_b=zeros(1,9);
p_0=zeros(1,9);
delta_ratio=zeros(1,9)
D_out=D_max;
L_out=L_max;
X_CG=zeros(1,9);
X_CP=zeros(1,9);
M_p=zeros(1,9);
M_0=zeros(1,9);
M_s = zeros(1,9);
epsilon_c=zeros(1,9);
for loop=1:9
disp(num2str(loop));
h_max=Data(1,loop);
a_max=Data(2,loop);
SM=Data(3,loop);
L=L_max(1,loop);
D=D_max(1,loop);
R_max=1+a_max;
W_eq=sqrt((h_max*g)/(((log(R_max)/2)*(log(R_max)-2))+((R_max-1)/R_max)));
t_bmax=(R_max-1)*W_eq/(g*R_max);
M_eq=W_eq/sqrt(gamma*287*T_atm);
P_c=P_a*(1+(((gamma-1)/2)*M_eq^2))^(gamma/(gamma-1));
P_0_a=P_c/P_a;
delta= (P_c/(2*sig_s))*D; % thickness of shell m
M_n=delta*rho_s*pi*D*(D+sqrt(D^2+(D^2/4)));
M_f=((D^2)/2)*delta*rho_s;
M_f_b=(pi*D*rho_s*D*delta);
M_s=(pi*D*rho_s*L*delta)+M_n+M_f+M_f_b;%%%%%%%%%%
M_p=(R_max-1)*(M_s+M_L);
L_p=(M_p/(pi*D^2*rho_p/4));
%% Ignore this part!
% Center of Pressure for Rocket Nose
X_n=(2/3)*D;%m
CN_n=2;
%Center of Pressure for Rocket Fin
a=D;%m
s=D;%m
b=0;
m=a-b;
fin_hyp=sqrt(2)*D;%m
X_f=D+L;%m
delta_X_f=((m*(a+2*b))/(3*(a+b)))+((1/6)*(a+b-((a*b)/(a+b))));%m
X_f_dash=X_f+delta_X_f;%m
CN_f=(4*N*(s/D)^2)/(1+sqrt(1+((2*fin_hyp)/(a+b))^2));%m
k_fb=1+((D/2)/(s+(D/2)));%m
CN_fb=k_fb*CN_f; %m;
X_cp=((CN_n*X_n)+(CN_fb*X_f_dash))/(CN_n+CN_fb);
X_ncg=2*D/3;
%% Porblem begins here !
M_n=delta*rho_s*pi*D*(D+sqrt(D^2+(D^2/4)));
M_c=M_L+M_n;
%Center of Gravity for Rocket Fin
X_f_cg=(2*D/3)+L+D;
M_f=((D^2)/2)*delta*rho_s;
%Center of Gravity for Rocket Tube 1
L_1=L+D-L_p;
xL_1_cg=(L_1/2)+D;
M_L_1=pi*D*L_1*delta*rho_s;
%Center of Gravity for Rocket Tube 2
L_2=L_p;
xL_2_cg=(L_2/2)+D+L_1;
M_L_2=(pi*D*L_2*delta*rho_s)+M_p;
% Center of gravity final
M_f_b = (pi*D*rho_s*D*delta)
X_cg=((M_c*X_ncg)+(M_L_1*xL_1_cg)+(xL_2_cg*M_L_2)+(X_f_cg*M_f*3))/(M_c+M_L_1+M_L_2+(M_f*3));
M_s=(pi*D*rho_s*delta)+M_n+M_f+M_f_b
M_p=(R_max-1)*(M_s+M_L);
M_0=M_s+M_p+M_L
% PROBLEM: You see here M_0 is the summation of M_s M_p and M_L
% but M_L is defined previously = 1
% so the output here can not be zero yet it returns zero
epsilon=M_s/(M_s+M_p);
lamda=M_L/(M_s+M_p);
R_out(1,loop)=R_max
Weq_out(1,loop)=W_eq
t_b(1,loop)=t_bmax
p_0(1,loop)=P_0_a
delta_ratio(1,loop)=delta
D_out=D_max
L_out=L_max
X_CG(1,loop)=X_cg
X_CP(1,loop)=X_cp
M_p(1,loop)=M_p
M_0(1,loop)=M_0
epsilon_c(1,loop)= epsilon
M_s(1,loop)=M_s
end
6 件のコメント
Rik
2020 年 5 月 15 日
Have you tried replacing clear all with clear and using breakpoints to step through your code line by line?
回答 (1 件)
John D'Errico
2020 年 5 月 15 日
編集済み: John D'Errico
2020 年 5 月 15 日
I tried to look through the code for a few minutes now, looking for something obvious. So then I downloaded your data, put your code into MATLAB. Nothing seemed clear there either. Then I ran the code.
Sadly, it is dumping a lot of crap to the screen that means nothing to me, since I have no idea what is reasonable and what is not.
Learn to use the debugger. Step through the code. THINK ABOUT WHAT YOU ARE DOING.
I tried running the code. I do see something that looks very strange in what you are doing. On the first pass through the loop, I see this get dumped out:
M_p =
11.029
M_0 =
12.132
Then on the third pass through, I see this get dumped out:
M_p =
10.677 0 10.677
M_0 =
11.744 0 11.744
At the end, we have:
M_0 =
23.211 0 0 0 0 0 0 0 23.211
So M_p and M_0 are growing in size. Is that the goal here? We are given no clue as to what you expect.
Yet I don't see any line where you even assign some result into a vector element inside the loop. You are treating these variables as if they are all scalars inside the loop. You use the * and / operators, as if the variables are all scalars.
That in turn suggests that you probably are misusing vectors in some place. I look to see how these variables are created:
M_p=(R_max-1)*(M_s+M_L);
M_0=M_s+M_p+M_L
So they are still treated as scalars. How strange.
But then, at the VERY end of your loop, I see this block of code:
R_out(1,loop)=R_max
Weq_out(1,loop)=W_eq
t_b(1,loop)=t_bmax
p_0(1,loop)=P_0_a
delta_ratio(1,loop)=delta
D_out=D_max
L_out=L_max
X_CG(1,loop)=X_cg
X_CP(1,loop)=X_cp
M_p(1,loop)=M_p
M_0(1,loop)=M_0
epsilon_c(1,loop)= epsilon
M_s(1,loop)=M_s
SIGH. SERIOUSLY?
Go back up, just to check that before the loop, you created VECTORS M_p and M_0.
M_p=zeros(1,9);
M_0=zeros(1,9);
But then we return to the code, and inside the main part of the loop, remember you treat everything as if it is a SCALAR variable.
M_p=(R_max-1)*(M_s+M_L);
M_0=M_s+M_p+M_L
Do you see the problem?
When you do this:
M_p=(R_max-1)*(M_s+M_L);
MATLAB OVERWRITES THE VECTOR M_p. Yet, you are also using the variable M_p to store the result of this entire operation, for each pass through the loop. The same thing is done with each of those vectors.
0 件のコメント
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