Finding a variable in a very complicated equation
Afficher commentaires plus anciens
There are two equations:
y=P*exp(-alfa*x)*cos(alfa*x)/(2*alfa^3*EI)
alfa=(k/(4*EI))^(1/4)
x, y, P, EI are known, I need to find k using these equations, accuracy of 0,0001 is enough
I think that the only way to find k is to use the trial and error (iteration) method, unfortunately I can't manage to write a good script to calculate that
Thank You for all Your help in advance
Réponse acceptée
It would be nice if the constants were supplied. Using random numbers for them —
x = rand;
y = rand;
P = rand;
EI = rand;
alfa = @(k,EI) (k./(4*EI)).^(1/4);
yfcn = @(x,y,P,EI,k) P.*exp(-alfa(k,EI).*x).*cos(alfa(k,EI).*x)./(2*alfa(k,EI).^3.*EI) - y;
[k_est,fv] = fsolve(@(k)yfcn(x,y,P,EI,k), 1)
.
8 commentaires
Nikodem Podlaszewski
le 24 Avr 2021
Sure!
xy = [400 -0.01
300 -0.09
200 -0.11
100 0.14
0 0.87
400 -0.02
300 -0.09
200 -0.10
100 0.12
0 0.80];
E=210000; % [N/mm^2]
I=25*3^3/12; % [mm^4]
EI=E*I; % [Nmm^2]
P=19.62; % [N]
alfa = @(k,EI) (k./(4*EI)).^(1/4);
yfcn = @(x,y,P,EI,k) P.*exp(-alfa(k,EI).*x).*cos(alfa(k,EI).*x)./(2*alfa(k,EI).^3.*EI) - y;
for kk = 1:size(xy,1)
[k_est(kk,:),fv(kk,:)] = fsolve(@(k)yfcn(xy(kk,1),xy(kk,2),P,EI,k), 1);
end
Out = array2table([xy k_est, fv], 'VariableNames',{'x','y','k_est','fv'})
figure
stem3(Out.x, Out.y, Out.k_est, 'filled')
grid on
xlabel('x')
ylabel('y')
zlabel('k_{est}')
It would have been nice to have all that information at the outset.
Nikodem Podlaszewski
le 24 Avr 2021
Star Strider
le 24 Avr 2021
As always, my pleasure!
The ‘fv’ variable is the function value of ‘yfcn’ at the convergence. The fsolve function is a root-finder, so ‘fv’ should be close to 0. The ‘fv’ value tells how close it actually is. Also, it is optional, however I usually get it so I can determine how close fsolve got to solving it.
The ‘@’ sign denotes a function handle that MATLAB uses to define functions or to refer to them. See the documentation on What Is a Function Handle? for more information.
Nikodem Podlaszewski
le 24 Avr 2021
Star Strider
le 24 Avr 2021
The fsolve function is a root (zero) finder, so if it cannot find a solution (zero-crossing) within its accepted tolerances (the function value at convergence is greater than the tolerance, so greater than zero), it reports that as a minimum, however not a solution.
It is quite possible that the function has no real solution for those specific values. If you give it a complex initial estimate, perhaps 1+1i instead of 1, fsolve will search the complex space in that region for a complex solution.
Nikodem Podlaszewski
le 2 Mai 2021
Apparently, there is more to your code than what you posted.
If you are using a for loop, it is relatively straightforward to preallocate ‘k_est’ and ‘fv’ —
x = rand;
y = rand;
P = rand;
EI = rand;
alfa = @(k,EI) (k./(4*EI)).^(1/4);
yfcn = @(x,y,P,EI,k) P.*exp(-alfa(k,EI).*x).*cos(alfa(k,EI).*x)./(2*alfa(k,EI).^3.*EI) - y;
num_iter = 10; % Use The Appropriate Value
k_est = zeros(num_iter,1); % Preallocate Vector
fv = zeros(num_iter,1); % Preallocate Vector
for k1 = 1:num_iter
[k_est(k1),fv(k1)] = fsolve(@(k)yfcn(x,y,P,EI,k), 10);
end
Output = table(k_est,fv)
If you are using a while loop, preallocate the vectors to be greater than what you will likely require, then after the looop finishes (since you will have used a counter to create the ‘k1’ values) re-define —
k_est = k_est(1:k1);
fv = fv(1:k1);
This discards the rest of the vector, saving memory.
Plus de réponses (0)
Catégories
En savoir plus sur Loops and Conditional Statements dans Centre d'aide et File Exchange
le 24 Avr 2021
le 2 Mai 2021
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
