5-Matrix Algebra Page 159 Wednesday, February 4, 2004 12:49 PM
Matrix Algebra 159only if the number of columns (i.e., the number of elements in each row)
of the first matrix equals the number of rows (i.e., the number of ele-
ments in each column) of the second matrix.
The following two distributive properties hold:CA ( + B) = CA + CB(AB+ )C = AC + BCThe associative property also holds:(AB)C = A BC ( )However, the matrix product operation is not commutative. In fact, if A
and B are two square matrices, in general AB ≠BA. Also AB = 0 does
not imply A = 0 or B = 0.Inverse and Adjoint
Consider two square matrices of order n, A and B. If AB = BA = I, then
the matrix B is called the inverse of A and is denoted as A–1. It can be
demonstrated that the two following properties hold:■ Property 1. A square matrix A admits an inverse A–1 if and only if it is
nonsingular, i.e., if and only if its determinant is different from zero.
Otherwise stated, a matrix A admits an inverse if and only if it is of full
rank.■ Property 2. The inverse of a square matrix, if it exists, is unique. This
property is a consequence of the property that, if A is nonsingular, then
AB = AC implies B = C.Consider now a square matrix of order nA = {aij} and consider its
cofactors αij. Recall that the cofactors αij are the signed minors
(– 1 )(ij+)M of the matrix A. The adjoint of the matrix A, denoted as
ij
Adj(A), is the following matrix:α 11 , · α 1 ,j · α 1 ,n , ,
T α
11 · α 21 · αn, 1
· ··· · ·····
Adj ()A = αi, 1 · αij, · αin, = α 1 ,i · α 2 ,i · αni,
· ··· · ·····
αn, 1 · αnj, · αnn, α 1 ,n · α 2 ,n · αnn,