Difference between revisions of "Manuals/calci/MATRIXPRODUCT"

Latest revision as of 13:55, 17 April 2019

MATRIXPRODUCT (a,b,ConsiderUnits)

Type 1: A scalar (a constant) is multiplied with the each element of the matrix.
Type 2: Multiplication of two matrices.

We can do the matrix multiplication when the number of columns in the first matrix equals the number of rows in the second matrix.
For e.g. 4x2 matrix can multiply with 2x3. The matrix product of two arrays $a$ and $b$ is: $x_{ij}=\sum _{k=1}^{n}a_{ik}.b_{kj}$ where $i$ is the row number and $j$ is the column number.
i.e Multiply the elements of each row of 1st matrix by elements of each column of 2nd matrix.
So the resultant matrix is of the order: Rows of 1st matrix × Columns of 2nd.
For e.g If we multiply a 4x2 matrix with a 2x3 matrix, the product matrix is of order 4x3.
Matrix multiplication satisfies the associative and distributive properties.But it is not satisfies the commutative property.
i.e., Let A,B and C are three matrices, then A(BC)= (AB)C (Associative property)
A(B+C)= AB+AC and (A+B)C = AC+BC (Distributive properties)
k(AB)=(kA)B=A(kB)where k is a constant.But $AB\neq BA$ (Commutative property)