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I want to know, since the covariance matrix is symmetric, positive, and semi-definite, then if I calculate its eigenvectors what would be the properties of the space constructed by those eigenvectors (corresponds to non-close-zero eigenvalues), is it orthogonal or anything else special? Suppose this eigenvector matrix is called U, then what would be the properties with U*transpose(U)?

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    One can always set things up such that the matrix of eigenvectors of a symmetric positive semidefinite matrix is an orthogonal matrix, zero eigenvalues or not.2011-04-16
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    How to set things up? and what would be the U*transpose(U)2011-04-16
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    Most eigenroutines would generate an orthogonal matrix of eigenvectors. *Mathematica* and MATLAB (due to how LAPACK routines are set up) do. Remember that multiplying an orthogonal matrix with its transpose gives an identity matrix.2011-04-16
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    @J.M.: Do you know what the eigenvectors of a symmetric positive semidefinite matrix mean if the matrix is not necessarily a covariance matrix?2011-04-17
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    @Mitch: I tend to think of those things geometrically, much like Qiaochu's answer [here](http://math.stackexchange.com/questions/9758/9763#9763)... or you had something else in mind?2011-04-17

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