How will i transfer this graphical method code to simplex method?

20 Oct. 2018
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this is code is for maximizing the sizes of the cantiliver beam in graphical method of linear programming. i just want to ask a little idea how to transfer it in simplex method.
clear all; close all; clc; FOS= input(' Enter the value for FOS= '); F= input('Enter Force= '); L= input('Length= '); E= input('Enter Youngs Modulus for Material= '); sigma_y= input('Yield Stress of the Material= '); def= input(' Maximum allowable deflection= '); a= input(' Minimum depth of the beam= '); b= input(' Maximum depth of the beam= '); constrain1= 6*F*(L)*FOS/sigma_y;
x1= a:0.1:b; [r,c]=size(x1); x2=x1; for i=1:1:c x2(1,i)=constrain1/x1(1,i)^2; end constrain2=4*F*(L^3)/E*def; x3=x1; for i=1:1:c x3(1,i)=constrain2/x1(1,i)^3; end plot(x1,x2,x1,x3);
thank you very much for your kind response.

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madhan ravi
madhan ravi el 20 de Oct. de 2018
transfer this graphical method code to simplex method?
What does that even mean??
Warda Panondi
Warda Panondi el 20 de Oct. de 2018
Editada: Warda Panondi el 20 de Oct. de 2018
the code is in graphical method solution. and there is any way I could transfer this into a simplex method or not possible at all?
madhan ravi
madhan ravi el 20 de Oct. de 2018
give all your input datas to test and simplify . select the whole code and press the code button{} so that its easy to read
Warda Panondi
Warda Panondi el 20 de Oct. de 2018
clear all;
close all;
clc;
FOS= input(' Enter the value for FOS= ');
F= input('Enter Force= ');
L= input('Length= ');
E= input('Enter Youngs Modulus for Material= ');
sigma_y= input('Yield Stress of the Material= ');
def= input(' Maximum allowable deflection= ');
a= input(' Minimum depth of the beam= ');
b= input(' Maximum depth of the beam= ');
darshan1= 6*F*(L)*FOS/sigma_y;
x1= a:0.001:b;
[r,c]=size(x1);
x2=x1;
for i=1:1:c
x2(1,i)=darshan1/x1(1,i)^2;
end
darshan2=4*F*(L^3)/E*def;
x3=x1;
for i=1:1:c
x3(1,i)=darshan2/x1(1,i)^3;
end
plot(x1,x2,x1,x3);
thank you sir madhan ravi.

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 Respuesta aceptada

madhan ravi
madhan ravi el 20 de Oct. de 2018
Editada: madhan ravi el 20 de Oct. de 2018

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clear all;
close all;
clc;
FOS= input(' Enter the value for FOS= ');
F= input('Enter Force= ');
L= input('Length= ');
E= input('Enter Youngs Modulus for Material= ');
sigma_y= input('Yield Stress of the Material= ');
def= input(' Maximum allowable deflection= ');
a= input(' Minimum depth of the beam= ');
b= input(' Maximum depth of the beam= ');
darshan1= 6*F*(L)*FOS/sigma_y;
darshan2=4*F*(L^3)/E*def;
x1= a:0.001:b;
[r,c]=size(x1);
x2=darshan1./x1.^2;
x3=darshan2./x1.^3;
plot(x1,x2,'r',x1,x3,'b');

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madhan ravi
madhan ravi el 20 de Oct. de 2018
can't simplify further
Warda Panondi
Warda Panondi el 20 de Oct. de 2018
Thank you very much, sir, for your response and especially to your time sir.
madhan ravi
madhan ravi el 20 de Oct. de 2018
anytime :)

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Preguntada:

Warda Panondi
Warda Panondi
el 20 de Oct. de 2018

Comentada:

madhan ravi
madhan ravi
el 20 de Oct. de 2018

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