Connected relation

In mathematics, a relation on a set is called connected or complete or total if it relates all pairs of elements of the set in one direction or the other while it is called strongly connected if it relates pairs of elements. As described in the [|terminology section below], the terminology for these properties is not uniform. This notion of "total" should not be confused with that of a total relation in the sense that for all there is a so that .
Connectedness features prominently in the definition of total orders: a total order is a partial order in which any two elements are comparable; that is, the order relation is connected. Similarly, a strict partial order that is connected is a strict total order.
A relation is a total order if and only if it is both a partial order and strongly connected. A relation is a strict total order if, and only if, it is a strict partial order and just connected. A strict total order can never be strongly connected.
Some authors do however use the term connected with a much looser meaning, which applies to precisely those orders whose comparability graphs are connected graphs. This applies for instance to the fences, of which none of the nontrivial examples are total orders.

Formal definition

A relation on a set is called ' when for all
or, equivalently, when for all
A relation with the property that for all
is called '.

Terminology

The main use of the notion of connected relation is in the context of orders, where it is used to define total, or linear, orders. In this context, the property is often not specifically named. Rather, total orders are defined as partial orders in which any two elements are comparable.
Thus, is used more generally for relations that are connected or strongly connected. However, this notion of "total relation" must be distinguished from the property of being serial, which is also called total. Similarly, connected relations are sometimes called, although this, too, can lead to confusion: The universal relation is also called complete, and "complete" has several other meanings in order theory.
Connected relations are also called or said to satisfy .
When the relations considered are not orders, being connected and being strongly connected are importantly different properties. Sources which define both then use pairs of terms such as and, and, and, and, or and, respectively, as alternative names for the notions of connected and strongly connected as defined above.

Characterizations

Let be a homogeneous relation. The following are equivalent:

is strongly connected;
;
;
is asymmetric,

where is the universal relation and is the converse relation of
The following are equivalent:

is connected;
;
;
is antisymmetric,

where is the complementary relation of, is the identity relation and is the converse relation of.
Introducing progressions, Russell invoked the axiom of connection:

Properties

The relation of a tournament graph is always a connected relation on the set of s vertices.
If a strongly connected relation is symmetric, it is the universal relation.
A relation is strongly connected if, and only if, it is connected and reflexive.
A connected relation on a set cannot be antitransitive, provided has at least 4 elements. On a 3-element set for example, the relation has both properties.
If is a connected relation on then all, or all but one, elements of are in the range of Similarly, all, or all but one, elements of are in the domain of