Characteristic polynomial: Difference between revisions

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In linear algebra the characteristic polynomial of a square matrix is a polynomial which has the eigenvalues of the matrix as roots.

Let A be an n×n matrix. The characteristic polynomial of A is the determinant

\chi _{A}(X)=\det(A-XI_{n}),\,

where X is an indeterminate and I_n is an identity matrix.

The characteristic polynomial is unchanged under similarity, and hence be defined for an endomorphism of a vector space, independent of choice of basis.

The characteristic polynomial is monic of degree n;
The set of roots of the characteristic polynomial is equal to the set of eigenvalues of A.

The Cayley-Hamilton theorem states that a matrix satisfies its own characteristic polynomial.

Revision as of 17:37, 12 February 2009 (view source) imported>Howard C. Berkowitz No edit summary ← Older edit		Latest revision as of 22:35, 17 February 2009 (view source) imported>Chris Day No edit summary
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	In [[linear algebra]] the '''characteristic polynomial''' of a [[square matrix]] is a polynomial which has the [[eigenvalue]]s of the matrix as roots.		In [[linear algebra]] the '''characteristic polynomial''' of a [[square matrix]] is a polynomial which has the [[eigenvalue]]s of the matrix as roots.