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Copyright © Cengage Learning. All rights reserved. 7.7 The Determinant of a Square Matrix.

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1 Copyright © Cengage Learning. All rights reserved. 7.7 The Determinant of a Square Matrix

2 2 What You Should Learn Find the determinants of 2  2 matrices. Find minors and cofactors of square matrices. Find the determinants of square matrices.

3 3 The Determinant of a 2  2 Matrix

4 4 Every square matrix can be associated with a real number called its determinant. Determinants have many uses, and several will be discussed in this section. Historically, the use of determinants arose from special number patterns that occur when systems of linear equations are solved.

5 5 The Determinant of a 2  2 Matrix Coefficient Matrix Determinant det (A) = a 1 b 2 – a 2 b 1

6 6 Example 1 – The Determinant of a 2  2 Matrix Find the determinant of each matrix. a.b.c. Solution: a. = 2(2) – 1(–3) = 4 + 3 = 7

7 7 Example 1 – Solution b. = 2(2) – 4(1) = 4 – 4 = 0 c. = 0(4) – 2 = 0 – 3 = –3 cont’d

8 8 Minors and Cofactors

9 9 To define the determinant of a square matrix of dimension 3  3 or higher, it is helpful to introduce the concepts of minors and cofactors.

10 10 Example 2 – Finding the Minors and Cofactors of a Matrix Find all the minors and cofactors of Solution: To find the minor M 11 delete the first row and first column of A and evaluate the determinant of the resulting matrix.

11 11 Example 2 – Solution = –1(1) – 0(2) = –1 Similarly, to find the minor M 12 delete the first row and second column. cont’d

12 12 Example 2 – Solution = 3(1) – 4(2) = –5 Continuing this pattern, you obtain all the minors. M 11 = –1 M 12 = –5 M 13 = 4 M 21 = 2 M 22 = –4 M 23 = –8 M 31 = 5 M 32 = –3 M 33 = –6 cont’d

13 13 Example 2 – Solution Now, find the cofactors, using the definition of Minors and Cofactors of a Square Matrix for a 3  3 matrix. C 11 = –1 C 12 = 5 C 13 = 4 C 21 = –2 C 22 = –4 C 23 = 8 C 31 = 5 C 32 = 3 C 33 = –6 cont’d

14 14 The Determinant of a Square Matrix

15 15 The Determinant of a Square Matrix The following definition is called inductive because it uses determinants of matrices of dimension (n – 1)  (n – 1) to define determinants of matrices of dimension n  n.

16 16 Example 3 – The Determinant of a Matrix of Dimension 3  3 Find the determinant of Solution: Note that this is the same matrix that was in Example 2. There you found the cofactors of the entries in the first row to be C 11 = –1, C 12 = 5, and C 13 = 4.

17 17 Example 3 – Solution So, by the definition of the determinant of a square matrix, you have | A | = a 11 C 11 + a 12 C 12 + a 13 C 13 = 0(–1) + 2(5) + 1(4) = 14. If slides #12-17 were confusing, you may prefer the method on slide #18. cont’d First-row expansion

18 18 An Alternative Computational Approach The determinant of a 3x3 matrix can also be found using the following method: repeat the first two columns of the matrix to the right of the last column. a b c a b d e f d e g h k g h Now, the determinant is the sum of the products of the upper left to lower right diagonals minus the sum of the product of the upper right to lower left diagonals: |A|=(aek+bfg+cdh)-(bdk+afh+ceg).

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