Equivalence relation: Difference between revisions

An equivalence relation is a binary relation on a set that groups elements into categories^{[Note 1]} in which all members are considered "equivalent" under some criterion.

A relation ${\displaystyle \sim }$ on set ${\displaystyle X}$ is a equivalence relation if it satisfies the following properties:

• Reflexivity: ${\displaystyle \mathrm{\forall }x\in X}$, ${\displaystyle x\sim x}$.
• Symmetry: ${\displaystyle \mathrm{\forall }x,y\in X}$ such that ${\displaystyle x\sim y}$, ${\displaystyle y\sim x}$.
• Transitivity: ${\displaystyle \mathrm{\forall }x,y,z}$, if ${\displaystyle x\sim y}$ and ${\displaystyle y\sim z}$, then ${\displaystyle x\sim z}$.

When ${\displaystyle x\sim y}$, "${\displaystyle x}$ is said to be equivalent to ${\displaystyle y}$" under the relation ${\displaystyle \sim }$.

Given ${\displaystyle x\in X}$, the equivalence class of ${\displaystyle x}$, denoted $${\displaystyle [x]=\{y\in X\mid y\sim x\}}$$ is the set of elements that are equivalent to ${\displaystyle x}$.

• Relation
• Quotient set