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Page 1
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 1
Subject: Algebra-I
Semester-I
Lesson: Rank of Matrices
Lesson Developer: Chaman Singh and Brijendra Kumar Yadav
College/Department: Department of Mathematics, Acharya Narendra
Dev College , Delhi University
Page 2
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 1
Subject: Algebra-I
Semester-I
Lesson: Rank of Matrices
Lesson Developer: Chaman Singh and Brijendra Kumar Yadav
College/Department: Department of Mathematics, Acharya Narendra
Dev College , Delhi University
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 2
Table of Contents
Chapter: Rank of Matrices
? 1: Learning Outcomes
? 2: Introduction
? 3: Subspace of R
n
o 3.1: Column space of a matrix
o 3.2: Null Space of a Matrix
? 4: Basis for a Subspace
? 5: Coordinate System
? 6: Dimension of a Subspace
? 7: Rank of a matrix
o 7.1: Methods of Finding Rank of a Matix
o 7.2: Definition of Rank
? Exercises
? Summary
? References
1. Learning outcomes:
After studying this chapter you should be able to
? Understand the subspace of R
n
.
? Define and determine the column space and null space of a matrix.
? Understand the basis for a subspace.
? Calculate the dimension of a subspace.
? Define and determine the rank of a matrix.
2. Introduction:
The rank of the matrix is the most important concept in Matrix Algebra. The
rank is one of the fundamental pieces of data associated to a matrix. A
matrix always represents a linear transformation between two vector spaces.
With the help of the rank of the matrix we come to know several things
about this linear transformation e.g. whether it is bijective, how it maps
elements etc.
Page 3
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 1
Subject: Algebra-I
Semester-I
Lesson: Rank of Matrices
Lesson Developer: Chaman Singh and Brijendra Kumar Yadav
College/Department: Department of Mathematics, Acharya Narendra
Dev College , Delhi University
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 2
Table of Contents
Chapter: Rank of Matrices
? 1: Learning Outcomes
? 2: Introduction
? 3: Subspace of R
n
o 3.1: Column space of a matrix
o 3.2: Null Space of a Matrix
? 4: Basis for a Subspace
? 5: Coordinate System
? 6: Dimension of a Subspace
? 7: Rank of a matrix
o 7.1: Methods of Finding Rank of a Matix
o 7.2: Definition of Rank
? Exercises
? Summary
? References
1. Learning outcomes:
After studying this chapter you should be able to
? Understand the subspace of R
n
.
? Define and determine the column space and null space of a matrix.
? Understand the basis for a subspace.
? Calculate the dimension of a subspace.
? Define and determine the rank of a matrix.
2. Introduction:
The rank of the matrix is the most important concept in Matrix Algebra. The
rank is one of the fundamental pieces of data associated to a matrix. A
matrix always represents a linear transformation between two vector spaces.
With the help of the rank of the matrix we come to know several things
about this linear transformation e.g. whether it is bijective, how it maps
elements etc.
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 3
3. Subspace of R
n
:
Let S be any subset of R
n
. Then the set S is said to be the subspace of R
n
if
and only if it satisfies the following three properties :
(i) The zero vector is in S.
(ii) For each x, y ? S, the sum x + y ? S
(iii) For each x ? S and to each scalar a, the vector ax ? S.
Value Addition: Note
(1) A set S of R
n
is called subspace of R
n
if and only if it is closed under
addition and scalar multiplication.
(2) Three condition in the definition of subspace of R
n
may be replaced by
the equivalent one condition only i.e.
A set S of R
n
is called subspace of R
n
if any only if to each x, y ? S
and for any scalars a, b ? R, ax+by ?S.
(3) R
n
is also a subspace of itself because it satisfies the three properties
required for a subspace.
(4) The set consisting of only the zero vector in R
n
is also a subspace of
R
n
, called the zero subspace of R
n
.
Example 1: Consider a set S = span {v
1
, v
2
} where v
1
, v
2
? R
n
. Show that S
is a subspace of R
n
.
Solution: To show that S is subspace of R
n
. We will show that
(i) Zero vector is in S.
(ii) for all x,y ? S ? x+y ? S
(iii) for all x ? S & for any scalar a, ax ? S
(i) To show zero vector is in S.
we can write
12
0 0 0 vv ??
Thus 0 vector is a linear combination of v
1
& v
2
therefore 0 S ? .
(ii) Let x, y ? S
Then x and y are the linear combination of v
1
& v
2
such that
Page 4
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 1
Subject: Algebra-I
Semester-I
Lesson: Rank of Matrices
Lesson Developer: Chaman Singh and Brijendra Kumar Yadav
College/Department: Department of Mathematics, Acharya Narendra
Dev College , Delhi University
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 2
Table of Contents
Chapter: Rank of Matrices
? 1: Learning Outcomes
? 2: Introduction
? 3: Subspace of R
n
o 3.1: Column space of a matrix
o 3.2: Null Space of a Matrix
? 4: Basis for a Subspace
? 5: Coordinate System
? 6: Dimension of a Subspace
? 7: Rank of a matrix
o 7.1: Methods of Finding Rank of a Matix
o 7.2: Definition of Rank
? Exercises
? Summary
? References
1. Learning outcomes:
After studying this chapter you should be able to
? Understand the subspace of R
n
.
? Define and determine the column space and null space of a matrix.
? Understand the basis for a subspace.
? Calculate the dimension of a subspace.
? Define and determine the rank of a matrix.
2. Introduction:
The rank of the matrix is the most important concept in Matrix Algebra. The
rank is one of the fundamental pieces of data associated to a matrix. A
matrix always represents a linear transformation between two vector spaces.
With the help of the rank of the matrix we come to know several things
about this linear transformation e.g. whether it is bijective, how it maps
elements etc.
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 3
3. Subspace of R
n
:
Let S be any subset of R
n
. Then the set S is said to be the subspace of R
n
if
and only if it satisfies the following three properties :
(i) The zero vector is in S.
(ii) For each x, y ? S, the sum x + y ? S
(iii) For each x ? S and to each scalar a, the vector ax ? S.
Value Addition: Note
(1) A set S of R
n
is called subspace of R
n
if and only if it is closed under
addition and scalar multiplication.
(2) Three condition in the definition of subspace of R
n
may be replaced by
the equivalent one condition only i.e.
A set S of R
n
is called subspace of R
n
if any only if to each x, y ? S
and for any scalars a, b ? R, ax+by ?S.
(3) R
n
is also a subspace of itself because it satisfies the three properties
required for a subspace.
(4) The set consisting of only the zero vector in R
n
is also a subspace of
R
n
, called the zero subspace of R
n
.
Example 1: Consider a set S = span {v
1
, v
2
} where v
1
, v
2
? R
n
. Show that S
is a subspace of R
n
.
Solution: To show that S is subspace of R
n
. We will show that
(i) Zero vector is in S.
(ii) for all x,y ? S ? x+y ? S
(iii) for all x ? S & for any scalar a, ax ? S
(i) To show zero vector is in S.
we can write
12
0 0 0 vv ??
Thus 0 vector is a linear combination of v
1
& v
2
therefore 0 S ? .
(ii) Let x, y ? S
Then x and y are the linear combination of v
1
& v
2
such that
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 4
1 1 2 2 1 2
,, x av a v a a R ? ? ? and
1 1 2 2 1 2
,, y bv bv b b R ? ? ? .
Then ? ? ? ?
1 1 2 2 1 1 2 2
x y av a v bv bv ? ? ? ? ?
? ? ? ?
1 1 1 2 2 2 1 1 2 2
, ( ),( ) a b v a b v a b a b R ? ? ? ? ? ? ?
This show that x + y is a linear combination of v
1
and v
2
. Hence
x+y ? H.
(iii) Let x ? S and let a be any scalar, then
1 1 2 2 1 2
,, x av a v a a R ? ? ?
Now ? ?
1 1 2 2
ax a av a v ??
? ? ? ?
1 1 2 2 1 2
,, ax aa v aa v aa aa R ? ? ?
This shows that ax is a linear combination of v
1
and v
2
. Hence ax ? s. Since
S satisfies all the three condition. Therefore S is a subspace of R
n
.
Value Addition: Note
Defining a set by S = span{v
1
, v
2
,. . ., v
n
} means that every vector of the
set S can be written as the linear combination of the vectors v
1
, v
2
,. . ., v
n
.
i.e. let S = span { v
1
, v
2
,. . ., v
n
} and let u ?S, then there exists the scalars
a
1
, a
2
, . . ., a
n
such that u = a
1
v
1
+ a
2
v
2
+ . . . + a
n
v
n
.
3.1. Column space of a matrix:
The column space of a matrix A is denoted by Col A and defined as the
set of all linear combinations of the columns of A.
Value Addition: Note
1. Consider a matrix A = [a
1
a
2
. . . a
n
] where a
1
, a
2
,. . ., a
n
are the
columns in R
m
. Then Col A = span [a
1
, a
2
,. . ., a
n
]
2. The column space of an m ? n matrix is a subspace of R
m
.
3. To check whether a vector b is in the column space of a given matrix
A, or not, we will find the solution of the system Ax = b.
If the system is consistent i.e. the system has a solution then the
vector b is in the column space of A.
Page 5
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 1
Subject: Algebra-I
Semester-I
Lesson: Rank of Matrices
Lesson Developer: Chaman Singh and Brijendra Kumar Yadav
College/Department: Department of Mathematics, Acharya Narendra
Dev College , Delhi University
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 2
Table of Contents
Chapter: Rank of Matrices
? 1: Learning Outcomes
? 2: Introduction
? 3: Subspace of R
n
o 3.1: Column space of a matrix
o 3.2: Null Space of a Matrix
? 4: Basis for a Subspace
? 5: Coordinate System
? 6: Dimension of a Subspace
? 7: Rank of a matrix
o 7.1: Methods of Finding Rank of a Matix
o 7.2: Definition of Rank
? Exercises
? Summary
? References
1. Learning outcomes:
After studying this chapter you should be able to
? Understand the subspace of R
n
.
? Define and determine the column space and null space of a matrix.
? Understand the basis for a subspace.
? Calculate the dimension of a subspace.
? Define and determine the rank of a matrix.
2. Introduction:
The rank of the matrix is the most important concept in Matrix Algebra. The
rank is one of the fundamental pieces of data associated to a matrix. A
matrix always represents a linear transformation between two vector spaces.
With the help of the rank of the matrix we come to know several things
about this linear transformation e.g. whether it is bijective, how it maps
elements etc.
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 3
3. Subspace of R
n
:
Let S be any subset of R
n
. Then the set S is said to be the subspace of R
n
if
and only if it satisfies the following three properties :
(i) The zero vector is in S.
(ii) For each x, y ? S, the sum x + y ? S
(iii) For each x ? S and to each scalar a, the vector ax ? S.
Value Addition: Note
(1) A set S of R
n
is called subspace of R
n
if and only if it is closed under
addition and scalar multiplication.
(2) Three condition in the definition of subspace of R
n
may be replaced by
the equivalent one condition only i.e.
A set S of R
n
is called subspace of R
n
if any only if to each x, y ? S
and for any scalars a, b ? R, ax+by ?S.
(3) R
n
is also a subspace of itself because it satisfies the three properties
required for a subspace.
(4) The set consisting of only the zero vector in R
n
is also a subspace of
R
n
, called the zero subspace of R
n
.
Example 1: Consider a set S = span {v
1
, v
2
} where v
1
, v
2
? R
n
. Show that S
is a subspace of R
n
.
Solution: To show that S is subspace of R
n
. We will show that
(i) Zero vector is in S.
(ii) for all x,y ? S ? x+y ? S
(iii) for all x ? S & for any scalar a, ax ? S
(i) To show zero vector is in S.
we can write
12
0 0 0 vv ??
Thus 0 vector is a linear combination of v
1
& v
2
therefore 0 S ? .
(ii) Let x, y ? S
Then x and y are the linear combination of v
1
& v
2
such that
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 4
1 1 2 2 1 2
,, x av a v a a R ? ? ? and
1 1 2 2 1 2
,, y bv bv b b R ? ? ? .
Then ? ? ? ?
1 1 2 2 1 1 2 2
x y av a v bv bv ? ? ? ? ?
? ? ? ?
1 1 1 2 2 2 1 1 2 2
, ( ),( ) a b v a b v a b a b R ? ? ? ? ? ? ?
This show that x + y is a linear combination of v
1
and v
2
. Hence
x+y ? H.
(iii) Let x ? S and let a be any scalar, then
1 1 2 2 1 2
,, x av a v a a R ? ? ?
Now ? ?
1 1 2 2
ax a av a v ??
? ? ? ?
1 1 2 2 1 2
,, ax aa v aa v aa aa R ? ? ?
This shows that ax is a linear combination of v
1
and v
2
. Hence ax ? s. Since
S satisfies all the three condition. Therefore S is a subspace of R
n
.
Value Addition: Note
Defining a set by S = span{v
1
, v
2
,. . ., v
n
} means that every vector of the
set S can be written as the linear combination of the vectors v
1
, v
2
,. . ., v
n
.
i.e. let S = span { v
1
, v
2
,. . ., v
n
} and let u ?S, then there exists the scalars
a
1
, a
2
, . . ., a
n
such that u = a
1
v
1
+ a
2
v
2
+ . . . + a
n
v
n
.
3.1. Column space of a matrix:
The column space of a matrix A is denoted by Col A and defined as the
set of all linear combinations of the columns of A.
Value Addition: Note
1. Consider a matrix A = [a
1
a
2
. . . a
n
] where a
1
, a
2
,. . ., a
n
are the
columns in R
m
. Then Col A = span [a
1
, a
2
,. . ., a
n
]
2. The column space of an m ? n matrix is a subspace of R
m
.
3. To check whether a vector b is in the column space of a given matrix
A, or not, we will find the solution of the system Ax = b.
If the system is consistent i.e. the system has a solution then the
vector b is in the column space of A.
Rank of Matrices
Institute of Lifelong Learning, University of Delhi pg. 5
Example 2 : Let
2 3 4
8 8 6
6 7 7
A
?? ??
??
??
??
?? ??
??
and
6
10
11
b
??
??
??
??
??
??
. Determine whether
b is in the column space of A.
Solution : For the solution of the equation Ax = b, we have the augmented
matrix
? ?
2 3 4 6
8 8 6 10
6 7 7 11
Ab
?? ??
??
? ? ?
??
?? ??
??
2 3 4 6
0 4 10 14
0 2 5 7
?? ??
??
??
??
?? ?
??
2 2 1
3 3 1
4
3
R R R
R R R
??
??
2 3 4 6
0 4 10 14
0 0 0 0
?? ??
??
??
??
??
??
3 3 2
1
2
R R R ? .
There is a free variable therefore, the system Ax = b has a non-zero solution
i.e. the system is consistent, thus b is in the column space of A.
Example 3: Let
1 2 3
3 2 0
0 , 2 , 6
6 3 3
v v v
?? ? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
,
6
10
11
p
??
??
??
??
??
??
and ? ?
1 2 3
A v v v ? , then
(i) How many vectors are in {v
1
, v
2
, v
3
}
(ii) How many vectors are in Col A ?
Is p in Col A ? Why or why not ?
Solution: (i) There are three vectors in {v
1
, v
2
, v
3
}.
(iii) We have
? ?
1 2 3
A v v v ?
3 2 0
0 2 6
6 3 3
? ??
??
??
??
??
??
Read More
FAQs on Lecture 9 - Rank of Matrices - Algebra- Engineering Maths - Engineering Mathematics
| 1. What is the rank of a matrix? |  |
Ans. The rank of a matrix is the maximum number of linearly independent rows or columns in that matrix. It represents the dimension of the vector space spanned by the rows or columns of the matrix.
| 2. How is the rank of a matrix determined? | |
Ans. The rank of a matrix can be determined by performing row operations to bring the matrix into its reduced row echelon form (RREF). The number of non-zero rows in the RREF of the matrix is equal to its rank.
| 3. Can the rank of a matrix be greater than its number of rows or columns? | |
Ans. No, the rank of a matrix cannot exceed the number of its rows or columns. The rank is always less than or equal to the minimum of the two dimensions of the matrix.
| 4. What does a matrix with full rank mean? | |
Ans. A matrix with full rank means that its rank is equal to the minimum of its number of rows and columns. In other words, all the rows and columns of the matrix are linearly independent.
| 5. How does the rank of a matrix affect its solutions in linear equations? | |
Ans. The rank of a matrix determines whether a system of linear equations has a unique solution, infinitely many solutions, or no solution at all. If the rank is equal to the number of variables, there is a unique solution. If the rank is less than the number of variables, there are infinitely many solutions. If the rank is less than the number of variables and there is a row of zeros in the RREF, there is no solution.
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