Definition:Division Algebra

Definition
Let $\left({A_F, \oplus}\right)$ be an algebra over field $F$ such that $A_F$ does not consist solely of the zero vector $\mathbf 0_A$ of $A_F$.

Then $\left({A_F, \oplus}\right)$ is a division algebra :
 * $\forall a, b \in A_F, b \ne \mathbf 0_A: \exists_1 x \in A_F, y \in A_F: a = b \oplus x, a = y \oplus b$

That is, for every pair of elements $a, b$ of the algebra where $b$ is non-zero, there exists:
 * a unique element $x$ such that $a = b \oplus x$
 * a unique element $y$ such that $a = y \oplus b$

Alternative Definition
$A$ is a division algebra it has no zero divisors:
 * $\forall a, b \in A_F: a \oplus b = \mathbf 0_A \implies a = \mathbf 0_A \lor b = \mathbf 0_A$

The two definitions are shown to be equivalent in Division Algebra has No Zero Divisors.