1.5 Elementary Matrices and

Slides:

Advertisements

Similar presentations

LU Factorization.

Advertisements

Rules of Matrix Arithmetic

1.5 Elementary Matrices and a Method for Finding

1.5 Elementary Matrices and a Method for Finding

Inverses of n x n Matrices. The Inverse Matrix If A is an n x n matrix, the inverse of A (call it A -1 ) is the matrix such that A * A -1 is equal to.

Matrices & Systems of Linear Equations

Matrices and Systems of Equations

1 © 2012 Pearson Education, Inc. Matrix Algebra THE INVERSE OF A MATRIX.

Matrix Algebra THE INVERSE OF A MATRIX © 2012 Pearson Education, Inc.

Chapter 3 The Inverse. 3.1 Introduction Definition 1: The inverse of an n  n matrix A is an n  n matrix B having the property that AB = BA = I B is.

Table of Contents Matrices - Inverse Matrix Definition The inverse of matrix A is a matrix A -1 such that... and Note that... 1) For A to have an inverse,

Table of Contents Matrices - Inverse of a 3  3 Matrix Recall that to find an inverse of a 2  2 matrix, apply the formula... The formula for the inverse.

CHAPTER 1 Section 1.5 إعداد د. هيله العودان (وضعت باذن معدة العرض)

Linear Algebra - Chapter 1 [YR2005]

SYSTEMS OF LINEAR EQUATIONS

Elementary Linear Algebra Howard Anton Copyright © 2010 by John Wiley & Sons, Inc. All rights reserved. Chapter 1.

 Row and Reduced Row Echelon  Elementary Matrices.

Matrices King Saud University. If m and n are positive integers, then an m  n matrix is a rectangular array in which each entry a ij of the matrix is.

Elementary Operations of Matrix

Sec 3.1 Introduction to Linear System Sec 3.2 Matrices and Gaussian Elemination The graph is a line in xy-plane The graph is a line in xyz-plane.

Systems of Linear Equation and Matrices

Chap. 2 Matrices 2.1 Operations with Matrices

Anton/Busby Contemporary Linear AlgebraSection 3.1, Pg. 80.

MATH 250 Linear Equations and Matrices

Row Reduction Method Lesson 6.4.

Numerical Computation Lecture 7: Finding Inverses: Gauss-Jordan United International College.

1.4 Inverses; Rules of Matrix Arithmetic. Properties of Matrix Operations For real numbers a and b,we always have ab=ba, which is called the commutative.

1 © 2010 Pearson Education, Inc. All rights reserved © 2010 Pearson Education, Inc. All rights reserved Chapter 9 Matrices and Determinants.

Sec 3.2 Matrices and Gaussian Elemination Coefficient Matrix 3 x 3 Coefficient Matrix 3 x 3 Augmented Coefficient Matrix 3 x 4 Augmented Coefficient Matrix.

Sec 3.5 Inverses of Matrices Where A is nxn Finding the inverse of A: Seq or row operations.

Chapter 9 Matrices and Determinants Copyright © 2014, 2010, 2007 Pearson Education, Inc Multiplicative Inverses of Matrices and Matrix Equations.

The inverse of a Square Matrix 2.1 Day 1 (Out of Pre-Calc book 8.3) We are reloading for another chapter.

Section 1.5 Elementary Matrices and a Method for Finding A −1.

1.5 Elementary Matrices and

The Inverse of a Matrix Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB.

4.5 Inverse of a Square Matrix

Meeting 19 System of Linear Equations. Linear Equations A solution of a linear equation in n variables is a sequence of n real numbers s 1, s 2,..., s.

Properties of Inverse Matrices King Saud University.

CHARACTERIZATIONS OF INVERTIBLE MATRICES

2.2 The Inverse of a Matrix. Example: REVIEW Invertible (Nonsingular)

1.6 Further Results on Systems of Equations and Invertibility.

Linear Algebra Chapter 2 Matrices.

Matrices and Matrix Operations. Matrices An m×n matrix A is a rectangular array of mn real numbers arranged in m horizontal rows and n vertical columns.

2 2.2 © 2016 Pearson Education, Ltd. Matrix Algebra THE INVERSE OF A MATRIX.

2 - 1 Chapter 2A Matrices 2A.1 Definition, and Operations of Matrices: 1 Sums and Scalar Products; 2 Matrix Multiplication 2A.2 Properties of Matrix Operations;

Copyright © Cengage Learning. All rights reserved. 8 Matrices and Determinants.

College Algebra Chapter 6 Matrices and Determinants and Applications

Gaussian Elimination and Gauss-Jordan Elimination

Solving Systems of Equations Using Matrices

ALGEBRA AND TRIGONOMETRY

Lecture 2 Matrices Lat Time - Course Overview

Ch. 7 – Matrices and Systems of Equations

1.6 Further Results on Systems

Elementary Matrices.

Evaluating Determinants by Row Reduction

Matrix Operations SpringSemester 2017.

RECORD. RECORD Gaussian Elimination: derived system back-substitution.

Use Inverse Matrices to Solve Linear Systems

Elementary Matrix Methid For find Inverse

Inverse & Identity MATRICES Last Updated: October 12, 2005.

Section 9.5 Inverses of Matrices

The Inverse of a Matrix Prepared by Vince Zaccone

Sec 3.5 Inverses of Matrices

3.IV. Change of Basis 3.IV.1. Changing Representations of Vectors

DETERMINANT MATH 80 - Linear Algebra.

Matrix Operations SpringSemester 2017.

Matrix Algebra THE INVERSE OF A MATRIX © 2012 Pearson Education, Inc.

Presentation transcript:

1.5 Elementary Matrices and -1 a Method for Finding A

Definition An n×n matrix is called an elementary matrix if it can be obtained from the n×n identity matrix by performing a single elementary row operation.

Example1 Elementary Matrices and Row Operations

Theorem 1.5.1 Row Operations by Matrix Multiplication If the elementary matrix E results from performing a certain row operation on and if A is an m×n matrix ,then the product EA is the matrix that results when this same row operation is performed on A . When a matrix A is multiplied on the left by an elementary matrix E ,the effect is to performan elementary row operation on A .

Example2 Using Elementary Matrices

Inverse Operations If an elementary row operation is applied to an identity matrix I to produce an elementary matrix E ,then there is a second row operation that, when applied to E, produces I back again. Table 1.The operations on the right side of this table are called the inverse operations of the corresponding operations on the left.

Example3 Row Operations and Inverse Row Operation The 2 ×2 identity matrix to obtain an elementary matrix E ,then E is restored to the identity matrix by applying the inverse row operation.

Theorem 1.5.2 Every elementary matrix is invertible ,and the inverse is also an elementary matrix.

Theorem 1.5.3 Equivalent Statements If A is an n×n matrix ,then the following statements are equivalent ,that is ,all true or all false.

Row Equivalence Matrices that can be obtained from one another by a finite sequence of elementary row operations are said to be row equivalent . With this terminology it follows from parts (a )and (c ) of Theorem 1.5.3 that an n×n matrix A is invertible if and only if it is row equivalent to the n×n identity matrix.

A method for Inverting Matrices

Example4 Using Row Operations to Find (1/3) Find the inverse of Solution: To accomplish this we shall adjoin the identity matrix to the right side of A ,thereby producing a matrix of the form we shall apply row operations to this matrix until the left side is reduced to I ;these operations will convert the right side to ,so that the final matrix will have the form

Example4 Using Row Operations to Find (2/3)

Example5 Showing That a Matrix Is Not Invertible

Example4 Using Row Operations to Find (3/3)

Example6 A Consequence of Invertibility

Exercise Set 1.5 Question 3

Exercise Set 1.5 Question 10

Exercise Set 1.5 Question 17

Exercise Set 1.5 Question 22