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In
recreational mathematics Recreational mathematics is mathematics carried out for recreation (entertainment) rather than as a strictly research and application-based professional activity or as a part of a student's formal education. Although it is not necessarily limited ...
, an almost integer (or near-integer) is any number that is not an
integer An integer is the number zero (), a positive natural number (, , , etc.) or a negative integer with a minus sign ( −1, −2, −3, etc.). The negative numbers are the additive inverses of the corresponding positive numbers. In the languag ...
but is very close to one. Almost integers are considered interesting when they arise in some context in which they are unexpected.


Almost integers relating to the golden ratio and Fibonacci numbers

Well-known examples of almost integers are high powers of the
golden ratio In mathematics, two quantities are in the golden ratio if their ratio is the same as the ratio of their sum to the larger of the two quantities. Expressed algebraically, for quantities a and b with a > b > 0, where the Greek letter phi ( ...
\phi=\frac\approx 1.618, for example: : \begin \phi^ & =\frac\approx 3571.00028 \\ pt\phi^ & =2889+1292\sqrt5 \approx 5777.999827 \\ pt\phi^ & =\frac\approx 9349.000107 \end The fact that these powers approach integers is non-coincidental, because the golden ratio is a
Pisot–Vijayaraghavan number In mathematics, a Pisot–Vijayaraghavan number, also called simply a Pisot number or a PV number, is a real algebraic integer greater than 1, all of whose Galois conjugates are less than 1 in absolute value. These numbers were discovered by Axe ...
. The ratios of
Fibonacci Fibonacci (; also , ; – ), also known as Leonardo Bonacci, Leonardo of Pisa, or Leonardo Bigollo Pisano ('Leonardo the Traveller from Pisa'), was an Italian mathematician from the Republic of Pisa, considered to be "the most talented Western ...
or Lucas numbers can also make almost integers, for instance: * \operatorname(360)/\operatorname(216) \approx 1242282009792667284144565908481.999999999999999999999999999999195 * \operatorname(361)/\operatorname(216) \approx 2010054515457065378082322433761.000000000000000000000000000000497 The above examples can be generalized by the following sequences, which generate near-integers approaching Lucas numbers with increasing precision: * a(n) = \operatorname(45\times2^n)/\operatorname(27\times2^n) \approx \operatorname(18\times2^n) * a(n) = \operatorname(45\times2^n+1)/\operatorname(27\times2^n) \approx \operatorname(18\times2^n+1) As ''n'' increases, the number of consecutive nines or zeros beginning at the tenths place of ''a''(''n'') approaches infinity.


Almost integers relating to ''e'' and

Other occurrences of non-coincidental near-integers involve the three largest
Heegner number In number theory, a Heegner number (as termed by Conway and Guy) is a square-free positive integer ''d'' such that the imaginary quadratic field \Q\left sqrt\right/math> has class number 1. Equivalently, its ring of integers has unique factori ...
s: * e^\approx 884736743.999777466 * e^\approx 147197952743.999998662454 * e^\approx 262537412640768743.99999999999925007 where the non-coincidence can be better appreciated when expressed in the common simple form: :e^=12^3(9^2-1)^3+744-(2.225\ldots)\times 10^ :e^=12^3(21^2-1)^3+744-(1.337\ldots)\times 10^ :e^=12^3(231^2-1)^3+744-(7.499\ldots)\times 10^ where :21=3\times7, \quad 231=3\times7\times11, \quad 744=24\times 31 and the reason for the squares is due to certain
Eisenstein series Eisenstein series, named after German mathematician Gotthold Eisenstein, are particular modular forms with infinite series expansions that may be written down directly. Originally defined for the modular group, Eisenstein series can be generaliz ...
. The constant e^ is sometimes referred to as
Ramanujan's constant In number theory, a Heegner number (as termed by Conway and Guy) is a square-free positive integer ''d'' such that the imaginary quadratic field \Q\left sqrt\right/math> has class number 1. Equivalently, its ring of integers has unique factorizat ...
. Almost integers that involve the mathematical constants and e have often puzzled mathematicians. An example is: e^\pi-\pi=19.999099979189\ldots To date, no explanation has been given for why
Gelfond's constant In mathematics, Gelfond's constant, named after Aleksandr Gelfond, is , that is, raised to the power . Like both and , this constant is a transcendental number. This was first established by Gelfond and may now be considered as an application ...
(e^\pi) is nearly identical to \pi+20,
Eric Weisstein Eric Wolfgang Weisstein (born March 18, 1969) is an American mathematician and encyclopedist who created and maintains the encyclopedias ''MathWorld'' and ''ScienceWorld''. In addition, he is the author of the '' CRC Concise Encyclopedia of M ...

"Almost Integer"
at
MathWorld ''MathWorld'' is an online mathematics reference work, created and largely written by Eric W. Weisstein. It is sponsored by and licensed to Wolfram Research, Inc. and was partially funded by the National Science Foundation's National Science ...
 which is therefore considered a
mathematical coincidence A mathematical coincidence is said to occur when two expressions with no direct relationship show a near-equality which has no apparent theoretical explanation. For example, there is a near-equality close to the round number 1000 between powers ...
.


See also

*
Schizophrenic number A schizophrenic number (also known as mock rational number) is an irrational number that displays certain characteristics of rational numbers. Definition ''The Universal Book of Mathematics'' defines "schizophrenic number" as: The sequence of nu ...


References

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External links


J.S. Markovitch Coincidence, data compression, and Mach's concept of economy of thought
Integers Recreational mathematics