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Binary relation

Revision as of 12:28, 25 November 2007 by Boy Soprano II (talk | contribs) (Formal Definition and Notation)

A binary relation is a relation which relates pairs of objects.

Thus, the relation $\sim$ of triangle similarity is a binary relation over the set of triangles but the relation $R(x, y, z) = \{(x, y, z) \mid x, y, z \in \mathbb{Z}_{>0}, x\cdot y = z\}$ which says $x\cdot y$ is a factorization of $z$ over the positive integers is not a binary relation because it takes 3 arguments.

Formal Definition and Notation

Formally, we say that a relation $\mathfrak{R}$ on sets $A$ and $B$ is a subset of $A \times B$ (the Cartesian product of $A$ and $B$). We often write $a \, \mathfrak{R} \, b$ instead of $(a,b) \in \mathfrak{R}$. If $A=B$ (the case of most common interest), then we say that $\mathfrak{R}$ is a relation on $A$.

Thus, in the example of $\sim$ above, we may let $\sim$ be the set of ordered pairs of triangles in the Euclidean plane which are similar to each other. We could also define a relation $\leq$ on the power set of a set $S$, so that $(A,B) \in \leq$, or $A\leq B$, if and only if $A$ and $B$ are subsets of $S$ and $A$ is a subset of $B$. This is a common example of an order relation.

See also

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