Aleph-0: Difference between revisions
imported>Larry Sanger (Need to add the actual Hebrew letter, right? Also, adding categories, please stay on top of that!) |
imported>Peter Schmitt m (replace \aleph by ℵ for typographical reasons) |
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In [[mathematics]], '''aleph-0''' (written ℵ<sub>0</sub><!--<math>\aleph_0</math>--> and usually read 'aleph null') | |||
<ref> ''Aleph'' is the first letter of the [[Hebrew alphabet]]. </ref> | |||
is the traditional notation for the [[cardinality]] of the set of [[natural number]]s. | |||
It is the smallest transfinite [[cardinal number]]. | |||
The ''cardinality of a set is aleph-0'' (or shorter, | |||
a set ''has cardinality aleph-0'') if and only if there is | |||
a [[bijective function|one-to-one correspondence]] between all elements of the set and all natural numbers. | |||
However, the term "aleph-0" is mainly used in the context of [[set theory]]; | |||
usually the equivalent, but more descriptive term "''[[countable set|countably infinite]]''" is used. | |||
Aleph-0 is the first in the sequence of "small" transfinite numbers, | |||
the next smallest is aleph-1, followed by aleph-2, and so on. | |||
[[Georg Cantor]], who first introduced these numbers, | |||
believed aleph-1 to be the cardinality of the set of real numbers | |||
(the so-called ''continuum''), but was not able to prove it. | |||
This assumption became known as the [[continuum hypothesis]], | |||
which finally turned out to be independent of the axioms of set theory: | |||
First (in 1938) [[Kurt Gödel]] showed that it cannot be disproved, | |||
while [[Paul J. Cohen]] showed much later (in 1963) that it cannot be proved either. | |||
<references/> | |||
Revision as of 13:35, 6 July 2009
In mathematics, aleph-0 (written ℵ0 and usually read 'aleph null') [1] is the traditional notation for the cardinality of the set of natural numbers. It is the smallest transfinite cardinal number. The cardinality of a set is aleph-0 (or shorter, a set has cardinality aleph-0) if and only if there is a one-to-one correspondence between all elements of the set and all natural numbers. However, the term "aleph-0" is mainly used in the context of set theory; usually the equivalent, but more descriptive term "countably infinite" is used.
Aleph-0 is the first in the sequence of "small" transfinite numbers, the next smallest is aleph-1, followed by aleph-2, and so on. Georg Cantor, who first introduced these numbers, believed aleph-1 to be the cardinality of the set of real numbers (the so-called continuum), but was not able to prove it. This assumption became known as the continuum hypothesis, which finally turned out to be independent of the axioms of set theory: First (in 1938) Kurt Gödel showed that it cannot be disproved, while Paul J. Cohen showed much later (in 1963) that it cannot be proved either.
- ↑ Aleph is the first letter of the Hebrew alphabet.