Difference between revisions of "Zorn lemma"
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− | If in a non-empty [[Partially ordered set|partially ordered set]] | + | If in a non-empty [[Partially ordered set|partially ordered set]] $X$ every totally ordered subset (cf. [[Totally ordered set|Totally ordered set]]) has an upper bound, then $X$ contains a maximal element. An element $x_0$ is called an upper bound of a subset $A\subset X$ if $x\leq x_0$ for all $x\in A$. If an upper bound for $A$ exists, then the set $A$ is said to be bounded above. An element $x_0\in X$ is called maximal in $X$ if there is no element $x\in X$, $x\not=x_0$, such that $x_0\leq x$. |
− | The lemma was stated and proved by M. Zorn in | + | The lemma was stated and proved by M. Zorn in {{Cite|Zo}}. It is equivalent to the [[Axiom of choice|axiom of choice]]. |
====References==== | ====References==== | ||
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+ | |valign="top"|{{Ref|Ke}}||valign="top"| J.L. Kelley, "General topology", Springer (1975) {{MR|0370454}} | ||
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+ | |valign="top"|{{Ref|Zo}}||valign="top"| M. Zorn, "A remark on a method in transfinite algebra" ''Bull. Amer. Math. Soc.'', '''41''' (1935) pp. 667–670 {{MR|1563165}} | ||
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====Comments==== | ====Comments==== | ||
− | Earlier versions of the maximal principle, differing in detail from the one stated above but logically equivalent to it, were introduced independently by several mathematicians, the earliest being F. Hausdorff in 1909. For accounts of the history of the maximal principle, see | + | Earlier versions of the maximal principle, differing in detail from the one stated above but logically equivalent to it, were introduced independently by several mathematicians, the earliest being F. Hausdorff in 1909. For accounts of the history of the maximal principle, see {{Cite|Ca}}–{{Cite|RuRu}}. |
====References==== | ====References==== | ||
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+ | |valign="top"|{{Ref|Ca}}||valign="top"| P.J. Campbell, "The origin of "Zorn's lemma" " ''Historia Math.'', '''5''' (1978) pp. 77–89 {{MR|0462876}} | ||
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+ | |valign="top"|{{Ref|Mo}}||valign="top"| G.H. Moore, "Zermelo's axiom of choice", Springer (1982) {{MR|0679315}} | ||
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+ | |valign="top"|{{Ref|RuRu}}||valign="top"| J. Rubin, H. Rubin, "Equivalents of the axiom of choice", '''1–2''', North-Holland (1963–1985) {{MR|0153590}} {{MR|0798475}} | ||
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Revision as of 21:28, 18 June 2014
2020 Mathematics Subject Classification: Primary: 03-XX [MSN][ZBL]
maximal principle
If in a non-empty partially ordered set $X$ every totally ordered subset (cf. Totally ordered set) has an upper bound, then $X$ contains a maximal element. An element $x_0$ is called an upper bound of a subset $A\subset X$ if $x\leq x_0$ for all $x\in A$. If an upper bound for $A$ exists, then the set $A$ is said to be bounded above. An element $x_0\in X$ is called maximal in $X$ if there is no element $x\in X$, $x\not=x_0$, such that $x_0\leq x$.
The lemma was stated and proved by M. Zorn in [Zo]. It is equivalent to the axiom of choice.
References
[Ke] | J.L. Kelley, "General topology", Springer (1975) MR0370454 |
[Zo] | M. Zorn, "A remark on a method in transfinite algebra" Bull. Amer. Math. Soc., 41 (1935) pp. 667–670 MR1563165 |
Comments
Earlier versions of the maximal principle, differing in detail from the one stated above but logically equivalent to it, were introduced independently by several mathematicians, the earliest being F. Hausdorff in 1909. For accounts of the history of the maximal principle, see [Ca]–[RuRu].
References
[Ca] | P.J. Campbell, "The origin of "Zorn's lemma" " Historia Math., 5 (1978) pp. 77–89 MR0462876 |
[Mo] | G.H. Moore, "Zermelo's axiom of choice", Springer (1982) MR0679315 |
[RuRu] | J. Rubin, H. Rubin, "Equivalents of the axiom of choice", 1–2, North-Holland (1963–1985) MR0153590 MR0798475 |
Zorn lemma. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Zorn_lemma&oldid=32252