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In mathematics, an unordered pair or pair set is a set of the form {a, b}, i.e. a set having two elements a and b with no particular relation between them. In contrast, an ordered pair (a, b) has a as its first element and b as its second element.

While the two elements of an ordered pair (a, b) need not be distinct, modern authors only call {a, b} an unordered pair if a ≠ b.^[1] But for a few authors a singleton is also considered an unordered pair, although today, most would say that {a,a} is a multiset. It is typical to use the term unordered pair even in the situation where the elements a and b could be equal, as long as this equality has not yet been established.

A set with precisely 2 elements is also called a 2-set or (rarely) a binary set.

An unordered pair is a finite set; its cardinality (number of elements) is 2 or (if the two elements are not distinct) 1.

In axiomatic set theory, the existence of unordered pairs is required by an axiom, the axiom of pairing.

More generally, an unordered n-tuple is a set of the form {a₁, ,a₂,... a_n}.^[2]

Notes

^ Düntsch, Ivo; Gediga, Günther (2000), Sets, Relations, Functions, Primers Series, Methodos, ISBN 978-1-903280-00-3.
Fraenkel, Adolf (1928), Einleitung in die Mengenlehre, Berlin, New York: Springer-Verlag.
Roitman, Judith (1990), Introduction to modern set theory, New York: John Wiley & Sons, ISBN 978-0-471-63519-2.
Schimmerling, Ernest (2008), Undergraduate set theory.
^ Hrbacek, Karel; Jech, Thomas (1999), Introduction to set theory (3rd ed.), New York: Dekker, ISBN 978-0-8247-7915-3.
Rubin, Jean E. (1967), Set theory for the mathematician, Holden-Day.
Takeuti, Gaisi; Zaring, Wilson M. (1971), Introduction to axiomatic set theory, Graduate Texts in Mathematics, Berlin, New York: Springer-Verlag.

References

Enderton, Herbert (1977), Elements of set theory, Boston, MA: Academic Press, ISBN 978-0-12-238440-0.

[1] Düntsch, Ivo; Gediga, Günther (2000), Sets, Relations, Functions, Primers Series, Methodos, ISBN 978-1-903280-00-3.
Fraenkel, Adolf (1928), Einleitung in die Mengenlehre, Berlin, New York: Springer-Verlag.
Roitman, Judith (1990), Introduction to modern set theory, New York: John Wiley & Sons, ISBN 978-0-471-63519-2.
Schimmerling, Ernest (2008), Undergraduate set theory.

[2] Hrbacek, Karel; Jech, Thomas (1999), Introduction to set theory (3rd ed.), New York: Dekker, ISBN 978-0-8247-7915-3.
Rubin, Jean E. (1967), Set theory for the mathematician, Holden-Day.
Takeuti, Gaisi; Zaring, Wilson M. (1971), Introduction to axiomatic set theory, Graduate Texts in Mathematics, Berlin, New York: Springer-Verlag.

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	In [[mathematics]], an '''~~ordered~~ pair''' or '''pair set''' is a [[Set (mathematics)\|set]] of the form {''a'', ''b''}, i.e. a set having two elements ''a'' and ''b'' with no particular relation between them. In contrast, an [[ordered pair]] (''a'', ''b'') has ''a'' as its first element and ''b'' as its second element.		In [[mathematics]], an '''unordered pair''' or '''pair set''' is a [[Set (mathematics)\|set]] of the form {''a'', ''b''}, i.e. a set having two elements ''a'' and ''b'' with no particular relation between them. In contrast, an [[ordered pair]] (''a'', ''b'') has ''a'' as its first element and ''b'' as its second element.

	While the two elements of an ordered pair (''a'', ''b'') need not be distinct, modern authors only call {''a'', ''b''} an unordered pair if ''a'' ≠ ''b''.<ref>		While the two elements of an ordered pair (''a'', ''b'') need not be distinct, modern authors only call {''a'', ''b''} an unordered pair if ''a'' ≠ ''b''.<ref>