Trace (linear algebra)

In linear algebra, the trace of a square matrix $A$ , denoted $tr(A)$ ,^[1] is the sum of the elements on its main diagonal, $a_{11}+a_{22}+\dots +a_{nn}$ . It is only defined for a square matrix ( $n \times n$ ).

In mathematical physics, if $tr(A)$ = 0, the matrix is said to be traceless. This misnomer is widely used, as in the definition of Pauli matrices.

The trace of a matrix is the sum of its eigenvalues (counted with multiplicities). Also, $tr(AB) = tr(BA)$ for any matrices $A$ and $B$ of the same size. Thus, similar matrices have the same trace. As a consequence, one can define the trace of a linear operator mapping a finite-dimensional vector space into itself, since all matrices describing such an operator with respect to a basis are similar.

The trace is related to the derivative of the determinant (see Jacobi's formula).

^ "Rank, trace, determinant, transpose, and inverse of matrices". fourier.eng.hmc.edu. Retrieved 2020-09-09.

[:1-1] "Rank, trace, determinant, transpose, and inverse of matrices". fourier.eng.hmc.edu. Retrieved 2020-09-09.

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