On $R$, a relation $\rho$ is defined by $x \rho y$ if and only if $x - y$ is zero or irrational. Then
- $\rho$ is equivalence relation
- $\rho$ is reflexive but neither symmetric nor transitive
- $\rho$ is reflexive and symmetric but not transitive
- $\rho$ is symmetric and transitive but not reflexive
The Correct Option is C
Solution and Explanation
$x \rho y \Rightarrow x-y$ is zero or irrational number.
Now, $x \rho x$
$\Rightarrow x-x=0$
$\Rightarrow \rho$ is reflexive.
If $x \rho y \Rightarrow x-y$ is zero or irrational.
$=-(y-x)$ is zero or irrational.
$\Rightarrow y \rho x$ is zero or irrational.
$\Rightarrow \rho$ is symmetric. And if
$x \rho y \Rightarrow x-y$ is 0 or irrational.
$y \rho z \Rightarrow y-z$ is 0 or irrational.
Then, $(x-y)+(y-z)=x-z$ may be $0$ or rational.
$\Rightarrow \rho$ is not transitive.
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Concepts Used:
Types of Relation
TYPES OF RELATION
Empty Relation
Relation is said to be empty relation if no element of set X is related or mapped to any element of X i.e, R = Φ.
Universal Relation
A relation R in a set, say A is a universal relation if each element of A is related to every element of A.
R = A × A.
Identity Relation
Every element of set A is related to itself only then the relation is identity relation.
Inverse Relation
Let R be a relation from set A to set B i.e., R ∈ A × B. The relation R-1 is said to be an Inverse relation if R-1 from set B to A is denoted by R-1
Reflexive Relation
If every element of set A maps to itself, the relation is Reflexive Relation. For every a ∈ A, (a, a) ∈ R.
Symmetric Relation
A relation R is said to be symmetric if (a, b) ∈ R then (b, a) ∈ R, for all a & b ∈ A.
Transitive Relation
A relation is said to be transitive if, (a, b) ∈ R, (b, c) ∈ R, then (a, c) ∈ R, for all a, b, c ∈ A
Equivalence Relation
A relation is said to be equivalence if and only if it is Reflexive, Symmetric, and Transitive.