ThmDex – An index of mathematical definitions, results, and conjectures.

▼	Set of symbols
▼	Alphabet
▼	Deduction system
▼	Theory
▼	Zermelo-Fraenkel set theory
▼	Set
▼	Binary cartesian set product
▼	Binary relation
▼	Map
▼	Operation
▼	N-operation
▼	Binary operation
▼	Enclosed binary operation
▼	Groupoid

Definition D558

Ringoid

Formulation 0

An D21: Algebraic structure $R = (X, f, g)$ is a ringoid if and only if

(1)	$\forall \, x, y \in X : f(x, y) \in X$ (D20: Enclosed binary operation)
(2)	(2) $\forall \, x, y \in X : g(x, y) \in X$ (D20: Enclosed binary operation)
(3)	$\forall \, x, y, z \in X : g(x, f(y, z)) = f(g(x, y), g(x, z))$ (D555: Left-distributive binary operation)
(4)	$\forall \, x, y, z \in X : g(f(x, y), z) = f(g(x, z), g(y, z))$ (D556: Right-distributive binary operation)

Formulation 1

An D21: Algebraic structure $R = (X, +, \times)$ is a ringoid if and only if

(1)	$\forall \, x, y \in X : x + y \in X$ (D20: Enclosed binary operation)
(2)	$\forall \, x, y \in X : x y \in X$ (D20: Enclosed binary operation)
(3)	$\forall \, x, y, z \in X : x (y + z) = (x y) + (x z)$ (D555: Left-distributive binary operation)
(4)	$\forall \, x, y, z \in X : (x + y) z = (x z) + (y z)$ (D556: Right-distributive binary operation)

Formulation 2

An D21: Algebraic structure $R = (X, +, \times)$ is a ringoid if and only if

(1)	$G = (X, +)$ is a D263: Groupoid
(2)	$H = (X, +)$ is a D263: Groupoid
(3)	The D20: Enclosed binary operation $\times$ is a D557: Distributive binary operation over $+$

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