Cardinality of Set of Relations

Theorem
Let $S$ and $T$ be finite sets.

Let $\card S = n$ and $\card T = m$, where $\card {\, \cdot \,}$ denotes cardinality (that is, the number of elements).

Let $\RR$ denote the set of all relations from $S$ to $T$.

Then the cardinality of $\RR$ is given by:
 * $\card \RR = 2^{n m}$

Proof
By definition, a relation from $S$ to $T$ is a subset of the cartesian product $S \times T$ of $S$ and $T$.

From Cardinality of Cartesian Product of Finite Sets, we have:
 * $\card {S \times T} = n m$

The number of subsets of $S \times T$ is the cardinality of the power set $\powerset {S \times T}$ of $S \times T$.

From Cardinality of Power Set of Finite Set:
 * $\card {\powerset {S \times T} } = 2^{\card {S \times T} } = 2^{n m}$

Hence the result.