Access free live classes and tests on the app
Download
+
Unacademy's Blog!
Login Join for Free
avtar
  • ProfileProfile
  • Settings Settings
  • Refer your friendsRefer your friends
  • Sign outSign out
  • Terms & conditions
  • •
  • Privacy policy
  • About
  • •
  • Careers
  • •
  • Blog

© 2023 Sorting Hat Technologies Pvt Ltd

[wp_login_wall media_id="448945" text_before_login="Download JEE Maths Formulas" text_after_login="Download JEE Maths Formulas"]

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
[wp_login_wall media_id="424566" text_before_login=" Download Previous Year Papers" text_after_login="Download Previous Year Papers"] combat_iitjee

Related links

  • JEE Study Materials
  • CNG Full Form
  • Dimensional Formula of Pressure
  • Reimer Tiemann Reaction
  • Vector Triple Product
  • Swarts Reaction
  • Focal length of Convex Lens
  • Root mean square velocities
  • Fehling’s solution
testseries_iitjee Predict your JEE Rank .
[wp_login_wall media_id="448945" text_before_login="Download JEE Maths Formulas" text_after_login="Download JEE Maths Formulas"]

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
[wp_login_wall media_id="424566" text_before_login=" Download Previous Year Papers" text_after_login="Download Previous Year Papers"] combat_iitjee

Related links

  • JEE Study Materials
  • CNG Full Form
  • Dimensional Formula of Pressure
  • Reimer Tiemann Reaction
  • Vector Triple Product
  • Swarts Reaction
  • Focal length of Convex Lens
  • Root mean square velocities
  • Fehling’s solution
testseries_iitjee Predict your JEE Rank .
JEE Main 2026 Preparation: Question Papers, Solutions, Mock Tests & Strategy Unacademy » JEE Study Material » Mathematics » Generalized Eigenvector
[wp_login_wall media_id="448945" text_before_login="Download JEE Maths Formulas" text_after_login="Download JEE Maths Formulas"]

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
[wp_login_wall media_id="424566" text_before_login=" Download Previous Year Papers" text_after_login="Download Previous Year Papers"] combat_iitjee

Related links

  • JEE Study Materials
  • CNG Full Form
  • Dimensional Formula of Pressure
  • Reimer Tiemann Reaction
  • Vector Triple Product
  • Swarts Reaction
  • Focal length of Convex Lens
  • Root mean square velocities
  • Fehling’s solution
testseries_iitjee Predict your JEE Rank .

Generalized Eigenvector

We will learn about Generalized Eigenvector and Generalized Eigenvector Importance in this content.

Table of Content
  •  

Before knowing what a Generalized Eigenvector is, we should know about eigenvalue and eigenvector. In linear algebra, eigenvalues go hand in hand with eigenvectors. When looking at linear transformations, both eigenvalue and eigenvector are used. Eigenvalues are a unique collection of scalar values linked to a set of linear equations, most commonly in matrix equations. Characteristic roots refer to the eigenvectors. After applying linear transformations, it is a non-zero vector that its scalar factor can only alter. An eigenvalue is the scale factor that correlates to the eigenvectors. The direction of the eigenvector never changes if a body rotates or is twisted along its axis.

Generalized eigenvectors overview

Identifying a system’s eigenvectors and eigenvalues is crucial in Mathematical physics and engineering. It is analogous to matrix diagonalization and occurs in applications as diverse as stability analysis, rotating body physics, and tiny oscillations of vibrating systems. Each eigenvector is associated with an eigenvalue. Left eigenvectors and right eigenvectors are two types of eigenvectors that must be separated mathematically. However, for many issues in physics and engineering, simply considering the right eigenvectors is adequate. In such cases, the term “eigenvector” might refer to a right eigenvector when used without a qualifier. The generalized eigenvector is

(A – λI)p x = 0                                            (1)

where A is an n × n matrix, a generalized eigenvector of A corresponding to the eigenvalue λ, which is a non-zero vector x satisfying (A − λI)p x = 0 

for some positive integer p. Homogeneously, this is a non-zero component of the null space of (A − λI) p.

Here are some illustrations about generalized eigenvector

  1. How many powers of (A − λI) do we require to calculate all the generalized eigenvectors for λ?

Suppose A = n × n matrix and λ is an eigenvalue of the matrix with algebraic multiplicity k. In that case, the generalized eigenvectors for λ involve the non-zero elements of nullspace (A − λI) k. We have to take at most k powers of A − λI to figure out all of the generalized eigenvectors for λX.

  1. The goal of generalized eigenvectors was to extend a set of linearly independent eigenvectors to make a root. Are there always sufficient generalized eigenvectors to do so? 

 If λ is the eigenvalue of A with algebraic multiplicity k, therefore 

Nullity { (A − λI)k } = k. 

In another scenario, there are k linearly independent generalized eigenvectors for λ.

Examples

1    1    0

0     1    2

0    0     3

 In this above matrix,

  1. Characteristic polynomial is (3 − λ) (1 − λ)2 . 
  2. Eigenvalues are λ = 1, 3. 
  1. Eigenvectors    λ1 = 3 :         v1 = (1, 2, 2), 

                           λ2 = 1 :         v2 = (1, 0, 0).

  1.  Final generalized eigenvector will a vector v3 not equal to 0 such that 

   (A − λ2I)2 v3 = 0 but (A − λ2I) v3 is not equal to 0. Pick 

 v3 = (0, 1, 0). Note that (A − λ2I)v3 = v2

Chains of generalized eigenvector

Let A be a n × n matrix and v a generalized eigenvector of A corresponding to the eigenvalue λ. This means that (A − λI)p  v = 0 

for a positive integer p. If 0 ≤ q < p, then 

(A − λI) (p – q) (A − λI)qq  v = 0. 

That is, (A − λI)q v is also a generalized eigenvector corresponding to λ for q = 0, 1,2,3. . . , (p – 1). 

If p is the smallest +ve integer such that (A − λI)p v = 0, then the sequence (A − λI)p-1v, (A − λI)p-2 v, . . . , (A − λI)v, v is termed as a chain or cycle of generalized eigenvectors. The integer p is known as the length of the cycle

Generalized eigenvector importance

  1. The use of eigenvectors simplifies the understanding of linear transformations. 
  2. They are the axes or directions along which a linear transformation acts by stretching or compressing and flipping; eigenvalues are the factors that cause the compression.
  3. The more directions in which you can comprehend the behavior of a linear transformation, the easier it is to understand the linear transformation. Thus, you want to connect as many linearly independent eigenvectors with a single linear transformation as feasible.

Conclusion

Eigenvalues, eigenvectors, and generalized eigenvectors are important components of mathematical physics. Scientists frequently use these concepts to determine many scientific phenomenons. Linear transformations can be determined by the eigen vector. The above also covers an overview of generalized eigenvector along with some illustrations and an example of explaining eigenvalue, eigenvector and generalized eigenvector. (A – λI)p x = 0 is the generalized eigenvector, and λ is the eigen value. Generalized eigenvector helps to understand complicated mathematical problems and its uses in real-life applications.

faq

Frequently asked questions

Get answers to the most common queries related to the IIT JEE Examination Preparation.

What is the definition of eigenvalue?

Ans: Eigenvalues are a unique collection of scalar values linked to a set of linear equations, most commonly in matr...Read full

What is an eigenvector?

Ans: The eigenvector of a linear transformation is defined as a non-zero vector that changes at most by a scalar com...Read full

What is the importance of an eigenvector?

Ans: The use of eigenvectors simplifies the understanding of linear transformations. They are the axes or directions...Read full

What is a generalized form of eigenvector?

Ans: (A – λI)p...Read full

Ans: Eigenvalues are a unique collection of scalar values linked to a set of linear equations, most commonly in matrix equations. It is commonly represented by λ.

Ans: The eigenvector of a linear transformation is defined as a non-zero vector that changes at most by a scalar component when linear transformation is applied to it.

Ans: The use of eigenvectors simplifies the understanding of linear transformations. They are the axes or directions along which a linear transformation acts by stretching or compressing and flipping; eigenvalues are the factors that cause the compression. The more directions in which you can comprehend the behavior of a linear transformation, the easier it is to understand the linear transformation. Thus, you want to connect as many linearly independent eigenvectors with a single linear transformation as feasible.

Ans: (A – λI)p x = 0

where A is an n × n matrix, a generalized eigenvector of A corresponding to the eigenvalue λ, which is a non-zero vector x satisfying (A − λI)p x = 0 for some positive integer p. Homogeneously, this is a non-zero component of the null space of (A − λI)p.

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
combat_iitjee

Related links

  • JEE Study Materials
  • CNG Full Form
  • Dimensional Formula of Pressure
  • Reimer Tiemann Reaction
  • Vector Triple Product
  • Swarts Reaction
  • Focal length of Convex Lens
  • Root mean square velocities
  • Fehling’s solution
testseries_iitjee
Predict your JEE Rank
.

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
combat_iitjee

Related links

  • JEE Study Materials
  • CNG Full Form
  • Dimensional Formula of Pressure
  • Reimer Tiemann Reaction
  • Vector Triple Product
  • Swarts Reaction
  • Focal length of Convex Lens
  • Root mean square velocities
  • Fehling’s solution
testseries_iitjee
Predict your JEE Rank
.
Company Logo

Unacademy is India’s largest online learning platform. Download our apps to start learning


Starting your preparation?

Call us and we will answer all your questions about learning on Unacademy

Call +91 8585858585

Company
About usShikshodayaCareers
we're hiring
BlogsPrivacy PolicyTerms and Conditions
Help & support
User GuidelinesSite MapRefund PolicyTakedown PolicyGrievance Redressal
Products
Learner appLearner appEducator appEducator appParent appParent app
Popular goals
IIT JEEUPSCSSCCSIR UGC NETNEET UG
Trending exams
GATECATCANTA UGC NETBank Exams
Study material
UPSC Study MaterialNEET UG Study MaterialCA Foundation Study MaterialJEE Study MaterialSSC Study Material

© 2026 Sorting Hat Technologies Pvt Ltd

Unacademy's Blog!

Share via

COPY