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How to calculate the determinant of a symbolic matrix 5x5

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Salvo
Salvo on 31 Mar 2013
Suppose we have a symmetric,real matrix,K 5x5: K = [0 0 0 F 0; 0 0 F E 0;0 F E D 0;F E D C 0;0 0 0 0 A]
A,C,D,E,F are matrices (their size does not matter to me). How can i say to matlab to consider these entries as matrices and thereafter calculating the determinant of K ?
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Walter Roberson
Walter Roberson on 31 Mar 2013
Are A, C, D, E, F each square matrices? Are they the same size as each other? And should the zeroes be implicitly expanded to match the size of the matrices?
e.g., if each matrix is nxn and Z represents zeros(n,n) then you have K = [Z Z Z F Z; Z Z F E Z] and so on?

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Accepted Answer

Ahmed A. Selman
Ahmed A. Selman on 31 Mar 2013
I don't think it is possible to concatenate a matrix such as K if A-F have sizes > (1,1), thus no value of the determinant exist. This is because if e.g., [E] exists, then K(1,:)=[0 0 0 F 0] and K(2,:)=[0 0 F E 0] must be the same size, hence (E = [E], e.f., E is 1 by 1 matrix).
If the matrix K do exist, please explain further what is the shape of A-F sub matrices.
Otherwise just use the regular concatenation functions (cat, vertcat or horzcat) to construct K from A-F submatrices, and det(K) to find the determinant.
  2 Comments
Salvo
Salvo on 31 Mar 2013
Thank you very much Ahmed, you answered to my question. The entries are matrices of real numbers and this particular matrix's layout is for solving an eingeproblem. I have tried also with mathematica by wolfram,that's great but i can't verify whether is correct or not because that software arranges the matrix multiplication on the base of the alphabetic order, and this doesn't keep into account the noncommutative property of the addition for the matrices. So i can't establish whether is right or wrong,it means i have to proceed by hand which is quite annoying..
Walter Roberson
Walter Roberson on 31 Mar 2013
looks like it might be det(F)^4*det(A) with no component of C, D, or E.

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