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A rational number is a number that can be expressed as a fraction where and are integers and . A rational number is said to have numerator and denominator . Numbers that are not rational are called irrational numbers. The real line consists of the union of the rational and irrational numbers. The set of rational numbers is of measure zero on the real line, so it is "small" compared to the irrationals and the continuum.
The set of all rational numbers is referred to as the "rationals," and forms a field that is denoted . Here, the symbol derives from the German word Quotient, which can be translated as "ratio," and first appeared in Bourbaki's Algèbre (reprinted as Bourbaki 1998, p. 671).
Any rational number is trivially also an algebraic number.
Examples of rational numbers include , 0, 1, 1/2, 22/7, 12345/67, and so on. Farey sequences provide a way of systematically enumerating all rational numbers.
The set of rational numbers is denoted Rationals in the Wolfram Language, and a number can be tested to see if it is rational using the command Element[x, Rationals].
The elementary algebraic operations for combining rational numbers are exactly the same as for combining fractions.
It is always possible to find another rational number between any two members of the set of rationals. Therefore, rather counterintuitively, the rational numbers are a continuous set, but at the same time countable.
For , , and any different rational numbers, then
is the square of the rational number
(Honsberger 1991).
The probability that a random rational number has an even denominator is 1/3 (Salamin and Gosper 1972).
It is conjectured that if there exists a real number for which both and are integers, then is rational. This result would follow from the four exponentials conjecture (Finch 2003).
REFERENCES:
Bourbaki, N. Éléments de mathématique: Algèbre. Reprinted as Elements of Mathematics: Algebra I, Chapters 1-3. Berlin: Springer-Verlag, 1998.
Courant, R. and Robbins, H. "The Rational Numbers." §2.1 in What Is Mathematics?: An Elementary Approach to Ideas and Methods, 2nd ed. Oxford, England: Oxford University Press, pp. 52-58, 1996.
Finch, S. R. "Powers of 3/2 Modulo One." §2.30.1 in Mathematical Constants. Cambridge, England: Cambridge University Press, pp. 194-199, 2003.
Honsberger, R. More Mathematical Morsels. Washington, DC: Math. Assoc. Amer., pp. 52-53, 1991.
Salamin, E. and Gosper, R. W. Item 54 in Beeler, M.; Gosper, R. W.; and Schroeppel, R. HAKMEM. Cambridge, MA: MIT Artificial Intelligence Laboratory, Memo AIM-239, p. 18, Feb. 1972. https://www.inwap.com/pdp10/hbaker/hakmem/number.html#item54.
Wolfram, S. A New Kind of Science. Champaign, IL: Wolfram Media, p. 1168, 2002.
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