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 » A General Introduction on Equivalence Relations
[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 .

A General Introduction on Equivalence Relations

In this article we will learn A General Introduction on Equivalence Relations, proof of equivalence relations, definition of equivalence relations, examples of equivalence relations and more.

Table of Content
  •  

An equivalence relation in mathematics is a type of binary relation that needs to be transitive, symmetric, and reflexive. The “equal to (=)” relation is a well-known illustration of an equivalence relation. In other words, if two items of the given set are members of the same equivalence class, then they are equal to one another.

Equivalence Relations

A binary relation that is reflexive, symmetric, and transitive is called an equivalence relation when it is defined on a set in mathematics. Any element of the form (a, b) such that a A and b ϵB makes up a binary relation over the sets A and B. This relation is a subset of the cartesian product A B. The reflexive, symmetric, transitive “equal to (=)” relation is an example of an equivalence relation that is very common and simple to understand. Two components of a set are said to be equal, as the name implies, if and only if they fall under the same equivalence class.

A binary relation defined on a set X as an equivalence relation is reflexive, symmetric, and transitive. Any one of the three requirements—reflexive, symmetric, and transitive—must be met for the relation to qualify as an equivalence relation. As a result of the equivalence relation, the set is split into distinct equivalence classes. When and only when two elements of the set fall under the same equivalence class, they are deemed to be equal. The sign “∼” is typically used to indicate an equivalency connection.

Definition of Equivalence Relations

Mathematical relationships for real numbers If and only if R defined on a set A is reflexive, symmetric, and transitive, then R is said to be an equivalence relation. They are frequently used to put together items that are comparable or identical. For each of the elements a, b, and c∈A, it meets the requirements listed below:

  • Reflexive – R is reflexive if (a, a) ∈ R for all a ∈ A
  • Symmetric – R is symmetric if and only if (a, b) ∈ R ⇒ (b, a) ∈ R for all a, b ∈ A
  • Transitive – R is transitive if and only if (a, b) ∈ R and (b, c) ∈ R ⇒ (a, c) ∈ R for all a, b, c ∈ A

The reflexive relation, symmetric relation, and transitive relation are three different types of relations that make up the equivalence relation.

Proof of Equivalence Relations

Let’s look at an illustration. If and only if a = b, define a relation R on the set of natural numbers N as (a, b)∈ R. We shall now demonstrate the reflexivity, symmetry, and transitivity of the relation R.

For Reflexivity

Every natural number is equal to itself, which is known as the reflexive property i.e., a = a for all a ∈ N ⇒ (a, a) ∈ R for all a ∈ N. Hence, R is reflexive.

For Symmetric

For a, b ∈ N, let (a, b) ∈ R ⇒ a = b ⇒ b = a ⇒ (b, a) ∈ R. Since a, b are arbitrary, R is symmetric.

For Transitivity

For a, b, c ∈ N, let (a, b) ∈ R and (b, c) ∈ R ⇒ a = b and b = c ⇒ a = c (as numbers equal to the same number are equal to one another) ⇒ (a, c) ∈ R. Since a, b, c are arbitrary, R is transitive.

Reflexive, symmetric, and transitive properties characterise R as an equivalence relation on the set of natural numbers N.

Example of Equivalence Relations

Establish that the relation R is an equivalence relation for the set A ={1, 2, 3, 4,5} given by the relation R = (a, b):|a-b| is even.

Solution 

To prove given relation is equivalence relation we need to prove R is reflexive, symmetric and transitive.

For Reflexivity

Given the relationship,

|a – a| = | 0 |=0 Zero is also always even. Therefore, |a-a| is even. This means that (a, a) belongs to R. R is hence Reflexive.

For Symmetric

Given the relationship, |a – b| = |b – a|  We are aware that                                      |a – b| = |-(b – a)|=|b-a| Because |a – b| is equal, Consequently, |b – a| is also even. As a result, (b, a) belongs to R if (a, b)∈ R. R is hence symmetric.

For Transitivity

If |a-b| is even, (a-b) must also be even. In the same way, if (b-c) is even, then |b-c| must likewise be even. Even numbers make up the sum. It can therefore be written as a-b+ b-c is even. In addition, a – c is even. So,If |a-b| and |b-c| are equal, then |a-c| is also equal.

As a result, (a, c) also belongs to R if (a, b) ∈R and (b, c)ϵ R. R is hence transitive.

Conclusion

A binary connection that is reflexive, symmetric, and transitive is known as an equivalence relation in mathematics. One such illustration of an equivalence relation is the relation between line segments in geometry known as equipollence. A division of the underlying set into distinct equivalence classes is provided by each equivalence relation. Only if they are members of the same equivalence class are two items of the given set equal to one another.

faq

Frequently asked questions

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

Define equivalence relation.

Answer. Equivalence relation is defined as a relation that forms exclusive classes whose members bear the connection...Read full

Let A = {1, 2, 3, 4} and R = {(1, 1), (1, 3), (2, 2), (2, 4), (3, 1), (3, 3), (4, 2), (4, 4)}. Prove R is an equivalence relation.

Answer. Since (1, 1), (2, 2), (3, 3) an...Read full

What is the use of an equivalence relation?

Answer. A fundamental idea in mathematics that expands on the idea of equality is the equivalence relation. It offer...Read full

Define reflexivity.

Answer. Answer. In mathematics, a set X...Read full

Define symmetric relation.

Answer. A symmetric connection between two or more members of a set is one in which, if the first element is connect...Read full

Answer. Equivalence relation is defined as a relation that forms exclusive classes whose members bear the connection to each other and not to those in other classes and is reflexive, symmetric, and transitive.

Answer. Since (1, 1), (2, 2), (3, 3) and (4, 4)∈ R, Relation R is reflexive.

Because (a, b) ∈R and (b, a) also belong to R whenever (a, b)∈ R, relation R is symmetric.

e.g. (2, 4) ∈ R ⟹ (4, 2) ∈ R.

Relation R is transitive if and only if (a, b) and (b, c) are both members of R.

Example. (3, 1) ∈ R and (1, 3) ∈ R ⟹ (3, 3) ∈ R.

Answer. A fundamental idea in mathematics that expands on the idea of equality is the equivalence relation. It offers a formal mechanism to state whether two quantities are equal in relation to a particular setting or attribute.

Answer. Answer. In mathematics, a set X’s elements are considered to be reflexive if there is a relationship between each one of them. This can be expressed in terms of relations as a, a∈ R∀a∈Xor as I⊆R where I is the identity relation on A.

Answer. A symmetric connection between two or more members of a set is one in which, if the first element is connected to the second element, the second element is also related to the first element in accordance with the relation. Any two items of the set have a symmetric relationship, as implied by the term “symmetric relations.”

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