Let $A,B \in M(n,\mathbb{C})$ be two $n\times n$ matrices. I would like know how to prove that eigen-value of $AB$ is the same as the eigen-values of $BA$.
Eigen-values of $AB$ and $BA$?
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linear-algebra
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0A [related question](http://math.stackexchange.com/q/94926/11619). Not an exact duplicate, because there it was assumed that $B$ is invertible. Studying the answers given there will get you started anyway (more or less along the lines of Matt Pressland's +1 answer). – 2012-12-19
2 Answers
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Hint: let $v$ be an eigenvector of $AB$ with eigenvalue $\lambda$. What is $BABv$?
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0right. I initially thought you wanna ask what's the eigenvector of B$A$. – 2012-12-19
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you can prove $|\lambda I-AB|=|\lambda I-BA|$ by computing the determinant of following $ \left( \begin{array}{cc} I & A \\ B & I \\ \end{array} \right) $ in two diffeerent ways.