Let L be the linear operator on R? defined by L(x1, x2) = (2x1 – 3x2, 21 + 4x2)*:\\ i). Find the matrix A representing L with respect to the standard basis for R?. i). Find the matrix B representing L with respect to S = {(1,1), (0, 1)}. ii). Find an invertible matrix P such that B = P-'AP. \

Let L be the linear operator on R? defined by L(x1, x2) = (2x1 – 3x2, 21 + 4x2)*:\\ i). Find the matrix A representing L with respect to the standard basis for R?. i). Find the matrix B representing L with respect to S = {(1,1), (0, 1)}. ii). Find an invertible matrix P such that B = P-'AP. \

Linear Algebra: A Modern Introduction

4th Edition

ISBN:9781285463247

Author:David Poole

Publisher:David Poole

Chapter7: Distance And Approximation

Section7.2: Norms And Distance Functions

Problem 33EQ

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Concept explainers

Linear Algebra

In mathematics, problems can be solved by the arithmetic operators like addition, subtraction, multiplication, and division. In algebra, we represent the numbers by any letter called a variable. If these variables are of degree 1, then it is studied under linear algebra. The first-degree equations involving algebraic expressions are called linear equations. That is, if you represent it by drawing a graph you will get a straight line.

Question

Let L be the linear operator on R? defined by L(x1, x2) = (2x1 – 3x2, 21 + 4x2)*:\\
i). Find the matrix A representing L with respect to the standard basis for R?.
i). Find the matrix B representing L with respect to S = {(1,1), (0, 1)}.
ii). Find an invertible matrix P such that B = P-'AP. \
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A
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1 0
,P
6 7
2
2 0
-3
,B
4
A
3
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,B
1
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1
A
,P

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