mathematics Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes. These topics are represented in modern mathematics ...

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binary relation In mathematics, a binary relation associates elements of one set, called the ''domain'', with elements of another set, called the ''codomain''. A binary relation over Set (mathematics), sets and is a new set of ordered pairs consisting of ele ...

''R'' ⊆ ''X''×''Y'' between two sets ''X'' and ''Y'' is total (or left total) if the source set ''X'' equals the domain . Conversely, ''R'' is called right total if ''Y'' equals the range . When ''f'': ''X'' → ''Y'' is a function, the domain of ''f'' is all of ''X'', hence ''f'' is a total relation. On the other hand, if ''f'' is a partial function, then the domain may be a proper subset of ''X'', in which case ''f'' is not a total relation. "A binary relation is said to be total with respect to a universe of discourse just in case everything in that universe of discourse stands in that relation to something else."Functions
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Algebraic characterization

Total relations can be characterized algebraically by equalities and inequalities involving compositions of relations. To this end, let

X,Y

be two sets, and let

R\subseteq X\times Y.

For any two sets

A,B,

let

L_=A\times B

be the universal relation between

A

and

B,

and let

I_A=\

be the identity relation on

A.

We use the notation

R^\top

for the converse relation of

R.

R

is total iff for any set

W

and any

S\subseteq W\times X,

S\ne\emptyset

implies

SR\ne\emptyset.

R

is total iff

I_X\subseteq RR^\top.

* If

R

is total, then

L_=RL_.

The converse is true if

Y\ne\emptyset.

Y=\emptyset\ne X,

then

R

will be not total. * If

R

is total, then

\overline=\emptyset.

The converse is true if

Y\ne\emptyset.

Observe

\overline=\emptyset\Leftrightarrow RL_=L_,

and apply the previous bullet. * If

R

is total, then

\overline R\subseteq R\overline.

The converse is true if

Y\ne\emptyset.

Definition 5.8, page 57. * More generally, if

R

is total, then for any set

Z

and any

S\subseteq Y\times Z,

\overline\subseteq R\overline S.

The converse is true if

Y\ne\emptyset.

Take

Z=Y,S=I_Y

and appeal to the previous bullet.

Notes

References

* Gunther Schmidt & Michael Winter (2018) ''Relational Topology'' * C. Brink, W. Kahl, and G. Schmidt (1997) ''Relational Methods in Computer Science'', Advances in Computer Science, page 5, * Gunther Schmidt & Thomas Strohlein (2012)

987 Year 987 ( CMLXXXVII) was a common year starting on Saturday (link will display the full calendar) of the Julian calendar. Events By place Byzantine Empire * February 7 – Bardas Phokas (the Younger) and Bardas Skleros, two membe ...

* Gunther Schmidt (2011) {{Order theory Binary relations