Solution Manual Jaan Kiusalaas Numerical Methods In Engineering With Matlab 2nd 58 -

I’ve put together an explanatory piece based on the context of (and its solution) from the Solution Manual for Jaan Kiusalaas’ Numerical Methods in Engineering with MATLAB , 2nd Edition.

The decomposition yields (as shown in manual): I’ve put together an explanatory piece based on

I = eye(3); invA = zeros(3); for j = 1:3 b_col = I(:, j); b_perm = P * b_col; y = forwardSub(L, b_perm); invA(:, j) = backSub(U, y); end disp(invA); Then back substitution: ( U x = y )

(Values are approximate, matching typical pivot choices.) First permute ( b ): ( b' = P b ). Then forward substitution: ( L y = b' ). Then back substitution: ( U x = y ). -2 4 1

A = [3 -1 2; -2 4 1; 5 2 -3]; b = [1; 2; 3]; [L, U, P] = luDecomp(A); % P is permutation matrix