Explanation Given: The ( 7 × 7 ) Hessenberg matrix is, H = [ 2 3 1 6 − 1 3 8 5 7 2 8 2 2 1 0 0 4 1 3 − 5 2 0 0 6 1 2 4 3 0 0 0 4 1 2 1 0 0 0 0 0 6 5 0 0 0 0 0 7 3 ] Approach: Algorithm 1 : Let H be an unreduced Hessenberg matrix, and let w 0 denote the ( n × 1 ) unit vector e 1 . (a) Compute the vectors w 1 , w 2 ,…, w n by w k = H w k − 1 , for k = 1 , 2 , ... , n . (b) Solve the linear system a 0 w 0 + a 1 w 1 + ... + a n − 1 w n − 1 = − w n (c) Use the values from (b) as coefficients in p ( t ) : p ( t ) = t n + a n − 1 t n − 1 + ... + a 1 t + a 0 Calculator: The diagonal blocks are, H 11 = [ 2 3 5 7 ] , H 22 = [ 4 1 3 6 1 2 0 4 1 ] , and H 33 = [ 6 5 7 3 ] First, calculate H 11 − t I . H 11 − t I = [ 2 3 5 7 ] − t [ 1 0 0 1 ] = [ 2 − t 3 5 7 − t ] The characteristic polynomial of H 11 − t I is given as, det ( H 11 − t I ) = | 2 − t 3 5 7 − t | = ( 2 − t ) ( 7 − t ) − 3 × 5 = 14 − 9 t + t 2 − 15 = t 2 − 9 t − 1 So, p 1 ( t ) = t 2 − 9 t − 1 Calculate, H 22 − t I . H 22 − t I = [ 4 1 3 6 1 2 0 4 1 ] − t [ 1 0 0 0 1 0 0 0 1 ] = [ 4 − t 1 3 6 1 − t 2 0 4 1 − t ] The characteristic polynomial of H 22 − t I is given as, det ( H 22 − t I ) = |

Introduction to Linear Algebra (Classic Version) (5th Edition) (Pearson Modern Classics for Advanced Mathematics Series)

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Author: Lee Johnson, Dean Riess, Jimmy Arnold

Publisher: PEARSON

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Chapter 7.7, Problem 4E

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To verify:

The expression det(H−tI)=−p1(t)p2(t)p3(t).

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Chapter 7.7, Problem 3E

Chapter 7.7, Problem 5E

Chapter 7 Solutions

Introduction to Linear Algebra (Classic Version) (5th Edition) (Pearson Modern Classics for Advanced Mathematics Series)

Ch. 7.1 - In Exercises 16, find a symmetric matrix A such...Ch. 7.1 - Prob. 2E Ch. 7.1 - In Exercises 16, find a symmetric matrix A such...Ch. 7.1 - Prob. 4E Ch. 7.1 - In Exercises 16, find a symmetric matrix A such...Ch. 7.1 - Prob. 6E Ch. 7.1 - In Exercises 712, find a substitution x=Qy that...Ch. 7.1 - In Exercises 712, find a substitution x=Qy that...Ch. 7.1 - In Exercises 712, find a substitution x=Qy that...Ch. 7.1 - In Exercises 712, find a substitution x=Qy that...

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11. Find two nonzero matrices and such that.
Consider the matrices R=[ 0110 ] H=[ 1001 ] V=[ 1001 ] D=[ 0110 ] T=[ 0110 ] in GL(2,), and let G={ I2,R,R2,R3,H,D,V,T }. Given that G is a group of order 8 with respect to multiplication, write out a multiplication table for G. Sec. 3.3,22b,32b Find the center Z(G) for each of the following groups G. b. G={ I2,R,R2,R3,H,D,V,T } in Exercise 36 of section 3.1. Find the centralizer for each element a in each of the following groups. b. G={ I2,R,R2,R3,H,D,V,T } in Exercise 36 of section 3.1 Sec. 4.1,22 22. Find an isomorphism from the octic group D4 in Example 12 of this section to the group G={ I2,R,R2,R3,H,D,V,T } in Exercise 36 of Section 3.1. Sec. 4.6,14 14. Let G={ I2,R,R2,R3,H,D,V,T } be the multiplicative group of matrices in Exercise 36 of section 3.1, let G={ 1,1 } under multiplication, and define :GG by ([ abcd ])=adbc. Assume that is an epimorphism, and find the elements of K= ker . Write out the distinct elements of G/K. Let :G/KG be the isomorphism described in the proof of Theorem 4.27, and write out the values of .
Consider an mn matrix A and an np matrix B. Show that the row vectors of AB are in the row space of B and the column vectors of AB are in the column space of A.

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Inverse Matrices and Their Properties; Author: Professor Dave Explains;https://www.youtube.com/watch?v=kWorj5BBy9k;License: Standard YouTube License, CC-BY

To verify: The expression det ( H − t I ) = − p 1 ( t ) p 2 ( t ) p 3 ( t ) .

Solution Summary: The author explains how to verify the expression mathrmdet(H-tI)=-p_1 (t

Videos

To verify:

The expression det(H−tI)=−p1(t)p2(t)p3(t).

Want to see the full answer?

Chapter 7 Solutions

To verify: The expression det ( H − t I ) = − p 1 ( t ) p 2 ( t ) p 3 ( t ) .

Solution Summary: The author explains how to verify the expression mathrmdet(H-tI)=-p_1 (t

Videos

To verify: The expression det(H−tI)=−p1(t)p2(t)p3(t).

Want to see the full answer?

Chapter 7 Solutions

To verify:

The expression det(H−tI)=−p1(t)p2(t)p3(t).