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e Approximations

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An amazing pandigital approximation to e that is correct to 18457734525360901453873570 decimal digits is given by

(1+9^(-4^(7·6)))^(3^(2^(85))),
(1)

found by R. Sabey in 2004 (Friedman 2004).

Castellanos (1988ab) gives several curious approximations to e,

e approx 2+(54^2+41^2)/(80^2)
(2)
approx (pi^4+pi^5)^(1/6)
(3)
approx (271801)/(99990)
(4)
approx (150-(87^3+12^5)/(83^3))^(1/5)
(5)
approx 4-(300^4-100^4-1291^2+9^2)/(91^5)
(6)
approx (1097-(55^5+311^3-11^3)/(68^5))^(1/7),
(7)

which are good to 6, 7, 9, 10, 12, and 15 digits respectively.

E. Pegg Jr. (pers. comm., Mar. 2, 2002), found

e approx 3-sqrt(5/(63)),
(8)

which is good to 7 digits.

J. Lafont (pers. comm., MAy 16, 2008) found

e approx H_8(1+1/(80^2)),
(9)

where H_n is a harmonic number, which is good to 7 digits.

N. Davidson (pers. comm., Sept. 7, 2004) found

e approx 163^(32/163),
(10)

which is good to 6 digits.

D. Barron noticed the curious approximation

e approx K^(gamma-5/7)pi^(gamma+2/7),
(11)

where K is Catalan's constant and gamma is the Euler-Mascheroni constant, which however, is only good to 3 digits.

See also

Almost Integer, e

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References

Castellanos, D. "The Ubiquitous Pi. Part I." Math. Mag. 61, 67-98, 1988.Friedman, E. "Problem of the Month (August 2004)." https://erich-friedman.github.io/mathmagic/0804.html.

Referenced on Wolfram|Alpha

e Approximations

Cite this as:

Weisstein, Eric W. "e Approximations." From MathWorld--A Wolfram Web Resource. https://mathworld.wolfram.com/eApproximations.html

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