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I came across this matrix riddle a couple of weeks ago and I haven't figured it out.

  1. You have a known $10\times10$ matrix $A$, which is symmetric.
  2. For some unknown transformation matrix $T$, you have the relation that $\Lambda = T^TAT$.
    $\Lambda$ is a diagonal matrix and $T$ is not necessarily orthogonal, so this isn't the normal diagonalization problem.
  3. You have another relation for $T$: $J = TJT^T$, where $J$ is a $10\times10$ matrix such that the top right $5\times5$ block is an identity matrix and the bottom left $5\times5$ block is $-I$ (identity matrix).

How do you find what $T$ and $\Lambda$ are? Obviously $T$ is $10\times10$.

Using the two relations, I got the following equation: $J\Lambda = T^{-1}JAT$.

I don't if that helps.

Thanks!

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    If you want to be sure I see comments directed to me, you have to write @Gerry. Anyway, in the $2\times2$ case, the equation $J=TJT^t$ gives you many equations for the entries of $T$, enough to give you a real good idea of what $T$ is. Then knowing $T^tAT=\Lambda$ is diagonal and $A$ is symmetric should give you even more information.2012-09-19

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