Fundamental Theorem on Equivalence Relations/Examples/Arbitrary Equivalence on Set of 6 Elements 1

Example of Use of Fundamental Theorem on Equivalence Relations
Let $S = \set {1, 2, 3, 4, 5, 6}$.

Let $\mathcal R \subset S \times S$ be a relation on $S$ defined as:
 * $\mathcal R = \set {\tuple {1, 1}, \tuple {1, 2}, \tuple {1, 3}, \tuple {2, 1}, \tuple {2, 2}, \tuple {2, 3}, \tuple {3, 1}, \tuple {3, 2}, \tuple {3, 3}, \tuple {4, 4}, \tuple {4, 5}, \tuple {5, 4}, \tuple {5, 5}, \tuple {6, 6} }$

Then $\mathcal R$ is an equivalence relation which partitions $S$ into: