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I have a system of equations (5 in total) with 5 unknowns. I've set these out into matrices to try solve, but I'm not sure if this comes out right. Basically the setup is AX = B, where A,X, and B are matrices. A is a 5x5, X is a 1x5 and B is a 5x1.

When I use MATLAB to solve for X using the formula X = A\B, it gives me a warning:

Matrix is singular to working precision.

and gives me 0 for all 5 X unknowns, but if I say X = B\A it doesnt, and gives me values for the 5 X unknowns.

Anyone know what I'm doing wrong? In case this is important, this is what my X matrix looks like:

X= [1/C3; 1/P1; 1/P2; 1/P3; 1/P4]

Where C3, P1, P2, P3, P4 are my unknowns.

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X also has to be 5x1. –  r.m. May 16 '11 at 14:26

2 Answers 2

Your matrix is singular, which means its determinant is 0. Such system of equations does not give you enough information to find a unique solution. One odd thing I see in your question is that X is 1x5 while B is 5x1. This is not a correct way of posing the problem. Both X and B must be 5x1. In case you're wondering, this is not a Matlab thing - this is a linear algebra thing. This [5x5]*[1x5] is illegal. This [5x5]*[5x1] produces a [5x1] result. This [1x5]*[5x5] produces a [1x5] result. Check you algebra first, and then check whether the determinant (det function in Matlab) is 0.

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Knew it was going to be my error ;) checked it, and my matrix A is a 5x5, matrix B is a 5x1 and matrix X is a 5x1 as well. Does that make more sense? My linear algebra is a little shakey at the moment. –  Sysem May 16 '11 at 14:35
Yes, that's the way it's supposed to be. Have you checked whether you matrix's determinant is 0? –  Phonon May 16 '11 at 14:38
Yeah, the det is 0 for matrix A. So that's where the problem lies? I must have made a mistake in making the matrices from my equations. –  Sysem May 16 '11 at 14:42
Not necessarily. That only means that your vectors are not linearly independent. This video, I believe, delivers a good explanation for the concept of linear independence. –  Phonon May 16 '11 at 14:47
Ok I see. It doesn't, however, explain why my values in X are zeroes, as this shouldn't be the case –  Sysem May 16 '11 at 14:49

So, the next thing is to figure out why A is singular. (Note that it's possible that you'd want to solve

A x = b

in cases with square and singular A, but they'd only be in cases where b is in the range space of A.)

Maybe you can write your matrix A and vector b out (since it's only 5x5)? Or explain how you create it. That might give a clue as to why A isn't full rank or as to why b isn't in the range space of A.

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