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Characteristic Polynomial Hung-yi Lee. Outline Last lecture: Given eigenvalues, we know how to find eigenvectors or eigenspaces Check eigenvalues This.

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Presentation on theme: "Characteristic Polynomial Hung-yi Lee. Outline Last lecture: Given eigenvalues, we know how to find eigenvectors or eigenspaces Check eigenvalues This."— Presentation transcript:

1 Characteristic Polynomial Hung-yi Lee

2 Outline Last lecture: Given eigenvalues, we know how to find eigenvectors or eigenspaces Check eigenvalues This lecture: How to find eigenvalues? Reference: Textbook 5.2

3 Looking for Eigenvalues Dependent

4 Characteristic Polynomial Eigenvalues are the roots of characteristic polynomial or solutions of characteristic equation. Characteristic polynomial of A Characteristic equation of A A is the standard matrix of linear operator T linear operator T

5 Looking for Eigenvalues Example 1: Find the eigenvalues of The eigenvalues of A are -3 or 5. =0 t = -3 or 5

6 Looking for Eigenvalues Example 1: Find the eigenvalues of The eigenvalues of A are -3 or 5. Eigenspace of -3 Eigenspace of 5 find the solution

7 Looking for Eigenvalues Example 2: find the eigenvalues of linear operator standard matrix

8 Looking for Eigenvalues Example 3: linear operator on R 2 that rotates a vector by 90 ◦ standard matrix of the 90 ◦ -rotation: No eigenvalues, no eigenvectors

9 Characteristic Polynomial In general, a matrix A and RREF of A have different characteristic polynomials. Similar matrices have the same characteristic polynomials Different Eigenvalues The same Eigenvalues

10 Characteristic Polynomial Question: What is the order of the characteristic polynomial of an n  n matrix A? The characteristic polynomial of an n  n matrix is indeed a polynomial with degree n Consider det(A  tI n ) Question: What is the number of eigenvalues of an n  n matrix A? Fact: An n x n matrix A have less than or equal to n eigenvalues Consider complex roots and multiple roots

11 Characteristic Polynomial If nxn matrix A has n eigenvalues (including multiple roots) Sum of n eigenvalues Product of n eigenvalues Trace of A Determinant of A = = Eigenvalues: -3, 5 Example

12 Characteristic Polynomial The eigenvalues of an upper triangular matrix are its diagonal entries. The determinant of an upper triangular matrix is the product of its diagonal entries. Characteristic Polynomial:

13 Characteristic Polynomial v.s. Eigenspace Characteristic polynomial of A is Factorization Eigenvalue: Eigenspace: (dimension) multiplicity

14 Characteristic Polynomial v.s. Eigenspace Example 1: characteristic polynomials:  (t + 1) 2 (t  3) Eigenvalue -1 Eigenvalue 3 Multiplicity of “-1” is 2 Multiplicity of “3” is 1 Dim of eigenspace is 1 or 2 Dim of eigenspace must be 1 Dim = 2

15 Characteristic Polynomial v.s. Eigenspace Example 2: characteristic polynomials:  (t + 1) (t  3) 2 Eigenvalue -1 Eigenvalue 3 Multiplicity of “-1” is 1 Multiplicity of “3” is 2 Dim of eigenspace is 1 or 2 Dim of eigenspace must be 1 Dim = 2

16 Characteristic Polynomial v.s. Eigenspace Example 3: characteristic polynomials:  (t + 1) (t  3) 2 Eigenvalue -1 Eigenvalue 3 Multiplicity of “-1” is 1 Multiplicity of “3” is 2 Dim of eigenspace is 1 or 2 Dim of eigenspace must be 1 Dim = 1

17 Characteristic polynomial EigenvaluesEigenspaces  (t + 1) 2 (t  3)  (t + 1) (t  3) 2 3 3 3 2 1 1 2 1 1

18 Summary Characteristic polynomial of A is Factorization Eigenvalue: Eigenspace: (dimension) multiplicity

19 Homework

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