Linear Algebra with Applications (9th Edition) (Featured Titles for Linear Algebra (Introductory))
Linear Algebra with Applications (9th Edition) (Featured Titles for Linear Algebra (Introductory))
9th Edition
ISBN: 9780321962218
Author: Steven J. Leon
Publisher: PEARSON
bartleby

Concept explainers

Matrices
‘Matrices’ is the plural form of the word matrix, and it is basically a spreadsheet in the form of a box. In mathematics, various functions can be carried out with matrices. Generally, a matrix comes in the shape of a square or rectangle. The elements ar…
bartleby

Videos

Textbook Question
Book Icon
Chapter 2, Problem 1E

Generate random 5 × 5 matrices with integer entries by setting

A = round ( 10 * rand ( 5 ) )

and

B = round ( 20 * rand ( 5 ) ) 10

Use MATLAB to compute each of the pairs of numbers that follow. In each case, check whether in first number is equal to the second.

(a) det ( A ) det ( A T )

(b) det ( A + B ) det ( A ) + det ( B )

(c) det ( A B ) det ( A ) + det ( B )

(d) det ( A T B T ) det ( A T ) det ( B T )

(e) det ( A 1 ) 1 / det ( A )

(f) det ( A B 1 ) det ( A ) / det ( B )

a.

Expert Solution
Check Mark
To determine

Calculate the given relationship.

Answer to Problem 1E

The solution of the system is

  det(A)=-54164det(AT)=-54164

Explanation of Solution

Given:The matrix has been given

  A=round(10×rand(5))B=round(20×rand(5))10

Concept Used:

Given,

  A=round(10×rand(5))B=round(20×rand(5))10

Using given information calculate the determinant of the matrix.

  det(A)=-54164det(AT)=-54164

Program:

clc
clear
close all
A=round(10*rand(6));
B=round(20*rand(6))-10;
a=det(A);
b=det(A');

Quarry:

  • First, we have defined the given matrix A and B.
  • Then Calculate the determinant of the matrices.

b.

Expert Solution
Check Mark
To determine

Calculate the given relationship.

Answer to Problem 1E

The solution of the system is

  det(A+B)= -1.0914×10-11det(A)+det(B)=776530

Explanation of Solution

Given:The matrix has been given

  A=round(10×rand(5))B=round(20×rand(5))10

Concept Used:

Given,

  A=round(10×rand(5))B=round(20×rand(5))10

Using given information calculate the determinant of the matrix.

  det(A+B)= -1.0914×10-11det(A)+det(B)=776530

Program:

clc
clear
close all
A=round(10*rand(6));
B=round(20*rand(6))-10;
a=det(A);
b=det(A');
c=det(A)-det(A');
d=det(A-B);
e=det(A)-det(B);
f=det(A-B)-(det(A)-det(B));
g=det(A*B);
h=det(A)*det(B);
i=det(A*B)-det(A)*det(B);
j=det(A'*B);
k=det(A')*det(B);
l=det(A'*B)-det(A')*det(B);
m=det(A^-1);
n=1/det(A);
o=det(A^-1)-1/det(A);
p=det(A*B^-1);
q=det(A)/det(B);
r=det(A*B^-1)-det(A)/det(B);

Quarry:

  • First, we have defined the given matrix A and B.
  • Then Calculate the determinant of the matrices.

c.

Expert Solution
Check Mark
To determine

Calculate the given relationship.

Answer to Problem 1E

The solution of the system is

  det(AB)=112814det(A)det(B)=663720

Explanation of Solution

Given:The matrix has been given

  A=round(10×rand(5))B=round(20×rand(5))10

Concept Used:

Given,

  A=round(10×rand(5))B=round(20×rand(5))10

Using given information calculate the determinant of the matrix.

  det(AB)=112814det(A)det(B)=663720

Program:

clc
clear
close all
A=round(10*rand(6));
B=round(20*rand(6))-10;
a=det(A);
b=det(A');
c=det(A)-det(A');
d=det(A-B);
e=det(A)-det(B);
f=det(A-B)-(det(A)-det(B));
g=det(A*B);
h=det(A)*det(B);
i=det(A*B)-det(A)*det(B);
j=det(A'*B);
k=det(A')*det(B);
l=det(A'*B)-det(A')*det(B);
m=det(A^-1);
n=1/det(A);
o=det(A^-1)-1/det(A);
p=det(A*B^-1);
q=det(A)/det(B);
r=det(A*B^-1)-det(A)/det(B);

Quarry:

  • First, we have defined the given matrix A and B.
  • Then Calculate the determinant of the matrices.

d.

Expert Solution
Check Mark
To determine

Calculate the given relationship.

Answer to Problem 1E

The solution of the system is

  det(ATBT)=-2.2792×109det(AT)det(BT)=-2.2792×109

Explanation of Solution

Given:The matrix has been given

  A=round(10×rand(5))B=round(20×rand(5))10

Concept Used:

Given,

  A=round(10×rand(5))B=round(20×rand(5))10

Using given information calculate the determinant of the matrix.

  det(ATBT)=-2.2792×109det(AT)det(BT)=-2.2792×109

Program:

clc
clear
close all
A=round(10*rand(6));
B=round(20*rand(6))-10;
a=det(A);
b=det(A');
c=det(A)-det(A');
d=det(A-B);
e=det(A)-det(B);
f=det(A-B)-(det(A)-det(B));
g=det(A*B);
h=det(A)*det(B);
i=det(A*B)-det(A)*det(B);
j=det(A'*B);
k=det(A')*det(B);
l=det(A'*B)-det(A')*det(B);
m=det(A^-1);
n=1/det(A);
o=det(A^-1)-1/det(A);
p=det(A*B^-1);
q=det(A)/det(B);
r=det(A*B^-1)-det(A)/det(B);

Quarry:

  • First, we have defined the given matrix A and B.
  • Then Calculate the determinant of the matrices.

e.

Expert Solution
Check Mark
To determine

Calculate the given relationship.

Answer to Problem 1E

The solution of the system is

  det(A1)=-4.7684×1061/det(A)=-2.2792×109

Explanation of Solution

Given:The matrix has been given

  A=round(10×rand(5))B=round(20×rand(5))10

Concept Used:

Given,

  A=round(10×rand(5))B=round(20×rand(5))10

Using given information calculate the determinant of the matrix.

  det(A1)=-4.7684×1061/det(A)=-2.2792×109

Program:

clc
clear
close all
A=round(10*rand(6));
B=round(20*rand(6))-10;
a=det(A);
b=det(A');
c=det(A)-det(A');
d=det(A-B);
e=det(A)-det(B);
f=det(A-B)-(det(A)-det(B));
g=det(A*B);
h=det(A)*det(B);
i=det(A*B)-det(A)*det(B);
j=det(A'*B);
k=det(A')*det(B);
l=det(A'*B)-det(A')*det(B);
m=det(A^-1);
n=1/det(A);
o=det(A^-1)-1/det(A);
p=det(A*B^-1);
q=det(A)/det(B);
r=det(A*B^-1)-det(A)/det(B);

Quarry:

  • First, we have defined the given matrix A and B.
  • Then Calculate the determinant of the matrices.

f.

Expert Solution
Check Mark
To determine

Calculate the given relationship.

Answer to Problem 1E

The solution of the system is

  det(AB1)=-2.2792×109det(A)/det(B)=-8.1062×106

Explanation of Solution

Given:The matrix has been given

  A=round(10×rand(5))B=round(20×rand(5))10

Concept Used:

Given,

  A=round(10×rand(5))B=round(20×rand(5))10

Using given information calculate the determinant of the matrix.

  det(AB1)=-2.2792×109det(A)/det(B)=-8.1062×106

Program:

clc
clear
close all
A=round(10*rand(6));
B=round(20*rand(6))-10;
a=det(A);
b=det(A');
c=det(A)-det(A');
d=det(A-B);
e=det(A)-det(B);
f=det(A-B)-(det(A)-det(B));
g=det(A*B);
h=det(A)*det(B);
i=det(A*B)-det(A)*det(B);
j=det(A'*B);
k=det(A')*det(B);
l=det(A'*B)-det(A')*det(B);
m=det(A^-1);
n=1/det(A);
o=det(A^-1)-1/det(A);
p=det(A*B^-1);
q=det(A)/det(B);
r=det(A*B^-1)-det(A)/det(B);

Quarry:

  • First, we have defined the given matrix A and B.
  • Then Calculate the determinant of the matrices.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!
Previous
Chapter 2.3, Problem 16E
Next
Chapter 2, Problem 2E

Chapter 2 Solutions

Linear Algebra with Applications (9th Edition) (Featured Titles for Linear Algebra (Introductory))

Ch. 2.1 - Let A=[324123232] (a) Find the value of...Ch. 2.1 - Use determinants to determine whether the...Ch. 2.1 - Evaluate the following determinants: (a) |3523|...Ch. 2.1 - Evaluate the following determinants by inspection:...Ch. 2.1 - Evaluate the following determinant. Write your...Ch. 2.1 - Find all values of for which the following...Ch. 2.1 - Let A be a 33 matrix with a11=0 and a210 . Show...Ch. 2.1 - Write out the details of the proof of Theorem...Ch. 2.1 - Prove that if a row or a column of an nn matrix A...Ch. 2.1 - Use mathematical induction to prove that if A is...
Ch. 2.1 - Let A and B be 22 matrics. a) Does...Ch. 2.1 - Let A and B be 22 matrices and let C=[ a 11 a 12 a...Ch. 2.1 - Let A be a symmetric tridiagonal matrix (ie., A is...Ch. 2.2 - Evaluate each of the following determinants by...Ch. 2.2 - Let A=[0123111122331223] (a) Use the elimination...Ch. 2.2 - For each of the following, compute the determinate...Ch. 2.2 - Find all possible choices of c that would make the...Ch. 2.2 - Let Abe an nn matrix and a scalar. Show that...Ch. 2.2 - Let A be a nonsingular matrix. Show that...Ch. 2.2 - Let A and B be 33 matrices with det(A)=4 and...Ch. 2.2 - Show that if E is an elementary matrix, then ET is...Ch. 2.2 - Let E1,E2 , and E3 be 33 elementary matrices of...Ch. 2.2 - Let A and B be row equivalent matrices, and...Ch. 2.2 - Let Abe an nn matrix. Is it possible for A2+I=O in...Ch. 2.2 - Consider the 33 Vandermonde matrix V=[1 x 1 x 1 21...Ch. 2.2 - Suppose that a 33 matrix A factors into a product...Ch. 2.2 - Let A and B be nn matrices. Prove that the product...Ch. 2.2 - Let A and B be nn matrices. Prove that if AB=I ,...Ch. 2.2 - A matrix A is said to be skew symmetric if AT=A ....Ch. 2.2 - Let A be a nonsingular nn matrix with a nonzero...Ch. 2.2 - Let A be a kk matrix and let B be an (nk)(nk)...Ch. 2.2 - Let A and B be kk matrics and let M=[OBAO] Show...Ch. 2.2 - Show that evaluating the determinant of an nn...Ch. 2.2 - Show that the elimination method of computing the...Ch. 2.3 - For each of the following, compute (i) det(A) ,...Ch. 2.3 - Use the Cramer’s rule to solve each of the...Ch. 2.3 - Given A=[121043122] determine the (2, 3) entry of...Ch. 2.3 - Let A be the matrix in Exercise 3. Compute the...Ch. 2.3 - Prob. 5ECh. 2.3 - If A is singular, what can you say about the...Ch. 2.3 - Prob. 7ECh. 2.3 - Prob. 8ECh. 2.3 - Prob. 9ECh. 2.3 - Show that if A is nonsingular, then adj A is...Ch. 2.3 - Prob. 11ECh. 2.3 - Prob. 12ECh. 2.3 - Prob. 13ECh. 2.3 - Prob. 14ECh. 2.3 - Let x, y, and z be vectors in R3 . Show each of...Ch. 2.3 - Let x and y be vectors in R3 and define the skew...Ch. 2 - Generate random 55 matrices with integer entries...Ch. 2 - Prob. 2ECh. 2 - Prob. 3ECh. 2 - Prob. 4ECh. 2 - Prob. 5ECh. 2 - Prob. 6ECh. 2 - Prob. 1CTACh. 2 - For each statement that follows, answer true if...Ch. 2 - For each statement that follows, answer true if...Ch. 2 - Prob. 4CTACh. 2 - Prob. 5CTACh. 2 - For each statement that follows, answer true if...Ch. 2 - For each statement that follows, answer true if...Ch. 2 - Prob. 8CTACh. 2 - Prob. 9CTACh. 2 - Prob. 10CTACh. 2 - Let A and B he 33 matrices with det(A)=4 and...Ch. 2 - Prob. 2CTBCh. 2 - Let A=[1111123413610141020] (a) Compute the LU...Ch. 2 - Prob. 4CTBCh. 2 - Prob. 5CTBCh. 2 - Prob. 6CTBCh. 2 - Let A be an nn matrix and let be a scalar. Show...Ch. 2 - Prob. 8CTBCh. 2 - Prob. 9CTBCh. 2 - Let A be a matrix with integer entries. If...

Additional Math Textbook Solutions

Find more solutions based on key concepts
In Exercises 14 the given matrix represents an augmented matrix for a linear system. Write the corresponding se...

Elementary Linear Algebra: Applications Version

To write prime factorization of the number 60

Holt Mcdougal Larson Pre-algebra: Student Edition 2012

A faucet can fill a sink in 5 minutes. It takes twice as long for the drain to empty the sink. How long will it...

Intermediate Algebra for College Students (7th Edition)

the given equation.

Algebra: Structure And Method, Book 1

Complete each statement with the correct term from the column on the right. Some of the choices may not be used...

Intermediate Algebra (13th Edition)

The polynomial of degree 3 and zeros as −2, 3, 5.

College Algebra (5th Edition)

Knowledge Booster
Background pattern image
Algebra
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, algebra and related others by exploring similar questions and additional content below.
Similar questions
Recommended textbooks for you
Text book image
Elementary Linear Algebra (MindTap Course List)
Algebra
ISBN:9781305658004
Author:Ron Larson
Publisher:Cengage Learning
Text book image
Linear Algebra: A Modern Introduction
Algebra
ISBN:9781285463247
Author:David Poole
Publisher:Cengage Learning
Text book image
College Algebra (MindTap Course List)
Algebra
ISBN:9781305652231
Author:R. David Gustafson, Jeff Hughes
Publisher:Cengage Learning
Text book image
Elements Of Modern Algebra
Algebra
ISBN:9781285463230
Author:Gilbert, Linda, Jimmie
Publisher:Cengage Learning,
SEE MORE TEXTBOOKS
Matrix Operations Full Length; Author: ProfRobBob;https://www.youtube.com/watch?v=K5BLNZw7UeU;License: Standard YouTube License, CC-BY
Intro to Matrices; Author: The Organic Chemistry Tutor;https://www.youtube.com/watch?v=yRwQ7A6jVLk;License: Standard YouTube License, CC-BY