Janko group J4

Feller's coin-tossing constants are a set of numerical constants which describe asymptotic probabilities that in n independent tosses of a fair coin, no run of k consecutive heads (or, equally, tails) appears.

William Feller showed^[1] that if this probability is written as p(n,k) then

${\displaystyle \underset{n\to \mathrm{\infty }}{\lim }p(n,k){\alpha }_k^{n+1}={\beta }_k}$

where α_k is the smallest positive real root of

${\displaystyle x^{k+1}=2^{k+1}(x-1)}$

and

${\displaystyle {\beta }_k=\frac{2-{\alpha }_k}{k+1-k{\alpha }_k}.}$

Values of the constants

For ${\displaystyle k=2}$ the constants are related to the golden ratio and Fibonacci numbers; the constants are ${\displaystyle \sqrt{5}-1=2\phi -2=2/\phi }$ and ${\displaystyle 1-1/\sqrt{5}}$. For higher values of ${\displaystyle k}$ they are related to generalizations of Fibonacci numbers such as the tribonacci and tetranacci constants.

Example

If we toss a fair coin ten times then the exact probability that no pair of heads come up in succession (i.e. n = 10 and k = 2) is p(10,2) = ${\displaystyle \frac{9}{64}}$ = 0.140625. The approximation gives 1.44721356...×1.23606797...⁻¹¹ = 0.1406263...

References

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External links

• Steve Finch's constants at Mathsoft Template:Broken link