How to save output from loop's eteration into a new matrix.

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Areeb Siraj el 30 de Mzo. de 2019

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Comentada: Areeb Siraj el 31 de Mzo. de 2019

Respuesta aceptada: Rebecca Cleveland Stout

% for I quad

%%co-ordinadets of n and e

n = [-0.557 0.577 0.577 -0.577]; e = [-0.577 -0.577 0.577 0.577];

%%co-ordinadets of x and y

for j=10:10:100 for i=10:10:100 x = [i-10 i i i-10]; y = [j-10 j-10 j j];

A = -0.25*(1-n); B = -0.25*(1-e); C = 0.25*(1-n); D = -0.25*(1+e); E = 0.25*(1+n); F = 0.25*(1+e); G = -0.25*(1+n); H = 0.25*(1-e);

Ia = (A(1,1)*x(1,1)) + (C(1,1)*x(1,2)) + (E(1,1)*x(1,3)) + (G(1,1)*x(1,4)); Ja = (B(1,1)*x(1,1)) + (D(1,1)*x(1,2)) + (F(1,1)*x(1,3)) + (H(1,1)*x(1,4)); Ka = (A(1,1)*y(1,1)) + (C(1,1)*y(1,2)) + (E(1,1)*y(1,3)) + (G(1,1)*y(1,4)); La = (B(1,1)*y(1,1)) + (D(1,1)*y(1,2)) + (F(1,1)*y(1,3)) + (H(1,1)*y(1,4));

% M is jacobian matrix

Ma = [Ia Ja; Ka La]; Na = inv(Ma'); %Mi' = transpose of Jacobian matrix P1a = Na*[A(1,1); B(1,1)]; P2a = Na*[C(1,1); D(1,1)]; P3a = Na*[E(1,1); F(1,1)]; P4a = Na*[G(1,1); H(1,1)];

Qa = [P1a(1,1) 0 P2a(1,1) 0 P3a(1,1) 0 P4a(1,1) 0; 0 P1a(2,1) 0 P2a(2,1) 0 P3a(2,1) 0 P4a(2,1); P1a(2,1) P1a(1,1) P2a(2,1) P2a(1,1) P3a(2,1) P3a(1,1) P4a(2,1) P4a(1,1)]; S = 180; %% value of E = 180 N/mm2 for steel T = 78; %% value of G = 78 N/mm2 for steel U = 34; %% value of poison's ratio V = [(1/S) (-U/S) 0; (-U/S) (1/S) 0; 0 0 (1/T)]; W = inv(V); X1 = 1; %% weighted fucntion w1 X2 = 1; %% weighted fucntion w2 t = 1; %% thickness X3a = det(Ma); %% determinant of jacobian matrix Ya = X1*X2*Qa'*W*Qa*t*X3a;

% for II quad

Ib = (A(1,2)*x(1,1)) + (C(1,2)*x(1,2)) + (E(1,2)*x(1,3)) + (G(1,2)*x(1,4)); Jb = (B(1,2)*x(1,1)) + (D(1,2)*x(1,2)) + (F(1,2)*x(1,3)) + (H(1,2)*x(1,4)); Kb = (A(1,2)*y(1,1)) + (C(1,2)*y(1,2)) + (E(1,2)*y(1,3)) + (G(1,2)*y(1,4)); Lb = (B(1,2)*y(1,1)) + (D(1,2)*y(1,2)) + (F(1,2)*y(1,3)) + (H(1,2)*y(1,4));

% M is jacobian matrix Mb = [Ib Jb; Kb Lb]; Nb = inv(Mb'); %Mi' = transpose of Jacobian matrix P1b = Nb*[A(1,2); B(1,2)]; P2b = Nb*[C(1,2); D(1,2)]; P3b = Nb*[E(1,2); F(1,2)]; P4b = Nb*[G(1,2); H(1,2)];

Qb = [P1b(1,1) 0 P2b(1,1) 0 P3b(1,1) 0 P4b(1,1) 0; 0 P1b(2,1) 0 P2b(2,1) 0 P3b(2,1) 0 P4b(2,1); P1b(2,1) P1b(1,1) P2b(2,1) P2b(1,1) P3b(2,1) P3b(1,1) P4b(2,1) P4b(1,1)]; X3b = det(Mb); %% determinant of jacobian matrix Yb = X1*X2*Qb'*W*Qb*t*X3b;

% for III quad

Ic = (A(1,3)*x(1,1)) + (C(1,3)*x(1,2)) + (E(1,3)*x(1,3)) + (G(1,3)*x(1,4)); Jc = (B(1,3)*x(1,1)) + (D(1,3)*x(1,2)) + (F(1,3)*x(1,3)) + (H(1,3)*x(1,4)); Kc = (A(1,3)*y(1,1)) + (C(1,3)*y(1,2)) + (E(1,3)*y(1,3)) + (G(1,3)*y(1,4)); Lc = (B(1,3)*y(1,1)) + (D(1,3)*y(1,2)) + (F(1,3)*y(1,3)) + (H(1,3)*y(1,4));

% M is jacobian matrix Mc = [Ic Jc; Kc Lc]; Nc = inv(Mc'); %Mi' = transpose of Jacobian matrix P1c = Nc*[A(1,3); B(1,3)]; P2c = Nc*[C(1,3); D(1,3)]; P3c = Nc*[E(1,3); F(1,3)]; P4c = Nc*[G(1,3); H(1,3)];

Qc = [P1c(1,1) 0 P2c(1,1) 0 P3c(1,1) 0 P4c(1,1) 0; 0 P1c(2,1) 0 P2c(2,1) 0 P3c(2,1) 0 P4c(2,1); P1c(2,1) P1c(1,1) P2c(2,1) P2c(1,1) P3c(2,1) P3c(1,1) P4c(2,1) P4c(1,1)]; X3c = det(Mc); %% determinant of jacobian matrix Yc = X1*X2*Qb'*W*Qb*t*X3c;

% for IV quad

Id = (A(1,4)*x(1,1)) + (C(1,4)*x(1,2)) + (E(1,4)*x(1,3)) + (G(1,4)*x(1,4)); Jd = (B(1,4)*x(1,1)) + (D(1,4)*x(1,2)) + (F(1,4)*x(1,3)) + (H(1,4)*x(1,4)); Kd = (A(1,4)*y(1,1)) + (C(1,4)*y(1,2)) + (E(1,4)*y(1,3)) + (G(1,4)*y(1,4)); Ld = (B(1,4)*y(1,1)) + (D(1,4)*y(1,2)) + (F(1,4)*y(1,3)) + (H(1,4)*y(1,4));

% M is jacobian matrix Md = [Id Jd; Kd Ld]; Nd = inv(Md'); %Mi' = transpose of Jacobian matrix P1d = Nd*[A(1,4); B(1,4)]; P2d = Nd*[C(1,4); D(1,4)]; P3d = Nd*[E(1,4); F(1,4)]; P4d = Nd*[G(1,4); H(1,4)];

Qd = [P1d(1,1) 0 P2d(1,1) 0 P3d(1,1) 0 P4d(1,1) 0; 0 P1d(2,1) 0 P2d(2,1) 0 P3d(2,1) 0 P4d(2,1); P1d(2,1) P1d(1,1) P2d(2,1) P2d(1,1) P3d(2,1) P3d(1,1) P4d(2,1) P4d(1,1)]; X3d = det(Md); %% determinant of jacobian matrix Yd = X1*X2*Qd'*W*Qd*t*X3d;

% equvalent matix Yeq = Ya + Yb + Yc + Yd; end end

This is my code and I want save output from loop's eteration in a matrix of size 80 by 80 for further formulation. Such that the first element of this new matrix is the first eteration of loop and so on.

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Areeb Siraj el 30 de Mzo. de 2019

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Pls help yourself

Jan el 30 de Mzo. de 2019

Editada: Jan el 30 de Mzo. de 2019

Seriously?

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Answer 1

Rebecca Cleveland Stout el 30 de Mzo. de 2019

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Enlace directo a esta respuesta

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Your code is quite hard to read, but generally, to save elements in a loop, you can do:

A = NaN*ones(80); % preallocate matrix where you want to save stuff
for k = 1:numel(A)
    % do your operations
    A(k) = result; % save your kth result to element k of the matrix
end