Foias constant

In mathematical analysis, the Foias constant is a real number named after Ciprian Foias.

It is defined in the following way: for every real number x₁ > 0, there is a sequence defined by the recurrence relation

x_{n + 1} = {(1 + \frac{1}{x_{n}})}^{n}

for n = 1, 2, 3, .... The Foias constant is the unique choice α such that if x₁ = α then the sequence diverges to infinity. For all other values of x₁, the sequence is divergent as well, but it has two accumulation points: 1 and infinity.^[1] Numerically, it is

α = 1.187452351126501 \dots

.^[2]

No closed form for the constant is known.

When x₁ = α then the growth rate of the sequence (x_n) is given by the limit

\lim_{n \to \infty} x_{n} \frac{\log n}{n} = 1,

where "log" denotes the natural logarithm.^[1]

The same methods used in the proof of the uniqueness of the Foias constant may also be applied to other similar recursive sequences.^[3]

Notes and references

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↑ ^1.0 ^1.1 Ewing, J. and Foias, C. "An Interesting Serendipitous Real Number." In Finite versus Infinite: Contributions to an Eternal Dilemma (Ed. C. Caluse and G. Păun). London: Springer-Verlag, pp. 119–126, 2000.
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[Foias-1] 1.0 ^1.1 Ewing, J. and Foias, C. "An Interesting Serendipitous Real Number." In Finite versus Infinite: Contributions to an Eternal Dilemma (Ed. C. Caluse and G. Păun). London: Springer-Verlag, pp. 119–126, 2000.

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Foias constant

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Foias constant

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