Cofactor of Matrix
Cofactor of a matrix is found by multiplying the minor of the matrix for a given element by (-1)i+j. Cofactor of a Matrix is represented as Cij. Hence, the relation between the minor and cofactor of a matrix is given as Mij = (-1)i+jMij. If we arrange all the cofactor obtained for an element then we get a cofactor matrix given as C = [Tex]\begin{bmatrix} c_{11} & c_{12}& c_{13} \\ c_{21} & c_{22} & c_{23} \\ c_{31} & c_{32} &c_{33} \\ \end{bmatrix}[/Tex]
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Matrices
Matrix is a rectangular array of numbers, symbols, points, or characters each belonging to a specific row and column. A matrix is identified by its order which is given in the form of rows ⨯ and columns. The numbers, symbols, points, or characters present inside a matrix are called the elements of a matrix. The location of each element is given by the row and column it belongs to.
Matrices are important for students of class 12 and also have great importance in engineering mathematics as well. In this introductory article on matrices, we will learn about the types of matrices, the transpose of matrices, the rank of matrices, the adjoint and inverse of matrices, the determinants of matrices, and many more in detail.
Table of Content
- What are Matrices?
- Order of Matrix
- Matrices Examples
- Operation on Matrices
- Addition of Matrices
- Scalar Multiplication of Matrices
- Multiplication of Matrices
- Properties of Matrix Addition and Multiplication
- Transpose of Matrix
- Trace of Matrix
- Types of Matrices
- Determinant of a Matrix
- Inverse of a Matrix
- Solving Linear Equation Using Matrices
- Rank of a Matrix
- Eigen Value and Eigen Vectors of Matrices