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Chapter 3 Determinants 3.1 Introduction to Determinants 行列式

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1 Chapter 3 Determinants 3.1 Introduction to Determinants 行列式
3.2 Properties of Determinants 3.3 Cramer’s Rule 克莱姆法则

2 THEOREM 4 Let , if ad – bc  0, then A is invertible and If ad – bc = 0, then A is not invertible

3 3.1 Introduction to Determinants
A is invertible, a11 0.

4 A is invertible,  must be nonzero.
The converse is true, too. We call  the determinant of the A.

5

6

7 DEFINITION For n  2, the determinant of an n×n matrix A is the sum of n terms of the form a1jdetA1j, with plus and minus signs alternating, where the entries a11, a12, …, a1n are from the first row of A. In symbols,

8 代数余子式 Given A=[aij], the (i, j)-cofactor of A is the number Cij given by Then . This formula is called a cofactor expansion across the first row of A. 按第一行展开

9 THEOREM 1 The determinant of an n×n matrix A can be computed by a cofactor expansion across any row or down any column. The expansion across the ith row using the cofactors is

10 The cofactor expansion down the jth column is

11 11

12 THEOREM 2 If A is a triangular matrix, then detA is the product of the entries on the main diagonal of A.

13 3.2 Properties of Determinants
THEOREM Row Operations Let A be a square matrix. a. If a multiple of one row of A is added to another row to produce a matrix B, then det B = det A. b. If two rows of A are interchanged to produce B, then det B = - det A. c. If one row of A is multiplied by k to produce B, then det B = k ·det A.

14 THEOREM 4 A square matrix A is invertible if and only if det A  0.

15 THEOREM 5 If A is an n×n matrix, then det AT = det A.

16 det(AB) = (det A)(det B).
THEOREM 6 If A and B are n×n matrices, then det(AB) = (det A)(det B). Proof: 1) if A is not invertible, then so is not AB, … 2) if A is invertible, then A=Ep…E1, det(AB) = det (Ep…E1)B =det Ep(Ep-1 …E1)B = det Ep•det(Ep-1 …E1) B =… =det Ep•detEp-1• …•detE1•detB = det (Ep…E1) •detB = detA•detB

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