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Continuum (set theory)

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Continuum set theory


In the mathematical field of set theory, the continuum means the real numbers, or the corresponding (infinite) cardinal number, c . Georg Cantor proved that the cardinality c is larger than the smallest infinity, namely, 0 . He also proved that c equals 2 0 , the cardinality of the power set of the natural numbers.

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The cardinality of the continuum is the size of the set of real numbers. The continuum hypothesis is sometimes stated by saying that no cardinality lies between that of the continuum and that of the natural numbers, 0 .

Linear continuum

According to Raymond Wilder (1965) there are four axioms that make a set C and the relation < into a linear continuum:

  • C is simply ordered with respect to <.
  • If [A,B] is a cut of C, then either A has a last element or B has a first element. (compare Dedekind cut)
  • There exists a non-empty, countable subset S of C such that, if x,yC such that x < y, then there exists zS such that x < z < y. (separability axiom)
  • C has no first element and no last element. (Unboundedness axiom)

    • These axioms characterize the order type of the real number line.

    References

    Continuum (set theory) Wikipedia
    (Text) CC BY-SA


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