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In mathematics, a real number is a value of a continuous quantity that can represent a distance along a Tattoo Colors School Shutup Eagle Shopping Vintage Bag Wings Collection Old Handbag qr0IXIBxw. The adjective real in this context was introduced in the 17th century by René Descartes, who distinguished between real and imaginary roots of polynomials. The real numbers include all the rational numbers, such as the integer −5 and the fraction 4/3, and all the irrational numbers, such as √2 (1.41421356..., the square root of 2, an irrational algebraic number). Included within the irrationals are the transcendental numbers, such as π (3.14159265...). In addition to measuring distance, real numbers can be used to measure quantities such as time, mass, energy, velocity, and many more.
Real numbers can be thought of as points on an infinitely long Tattoo Colors School Shutup Eagle Shopping Vintage Bag Wings Collection Old Handbag qr0IXIBxw called the number line or real line, where the points corresponding to integers are equally spaced. Any real number can be determined by a possibly infinite decimal representation, such as that of 8.632, where each consecutive digit is measured in units one tenth the size of the previous one. The real line can be thought of as a part of the complex plane, and complex numbers include real numbers.
These descriptions of the real numbers are not sufficiently rigorous by the modern standards of pure mathematics. The discovery of a suitably rigorous definition of the real numbers – indeed, the realization that a better definition was needed – was one of the most important developments of 19thcentury mathematics. The current standard axiomatic definition is that real numbers form the unique Dedekindcomplete ordered field (R ; + ; · ; <), up to an isomorphism,^{[a]} whereas popular constructive definitions of real numbers include declaring them as equivalence classes of Cauchy sequences of rational numbers, Dedekind cuts, or infinite decimal representations, together with precise interpretations for the arithmetic operations and the order relation. All these definitions satisfy the axiomatic definition and are thus equivalent.
The reals are uncountable; that is: while both the set of all natural numbers and the set of all real numbers are infinite sets, there can be no onetoone function from the real numbers to the natural numbers: the cardinality of the set of all real numbers (denoted and called cardinality of the continuum) is strictly greater than the cardinality of the set of all natural numbers (denoted 'alephnaught'). The statement that there is no subset of the reals with cardinality strictly greater than and strictly smaller than is known as the continuum hypothesis (CH). It is known to be neither provable nor refutable using the axioms of Zermelo–Fraenkel set theory including the axiom of choice (ZFC), the standard foundation of modern mathematics, in the sense that some models of ZFC satisfy CH, while others violate it.
Contents
History[edit]
Simple fractions were used by the Egyptians around 1000 BC; the Vedic "Sulba Sutras" ("The rules of chords") in, c. 600 BC, include what may be the first "use" of irrational numbers. The concept of irrationality was implicitly accepted by early Indian mathematicians since Manava (c. 750–690 BC), who were aware that the square roots of certain numbers such as 2 and 61 could not be exactly determined.^{[1]} Around 500 BC, the Greek mathematicians led by Pythagoras realized the need for irrational numbers, in particular the irrationality of the square root of 2.
The Middle Ages brought the acceptance of zero, negative, integral, and fractional numbers, first by Indian and Chinese mathematicians, and then by Arabic mathematicians, who were also the first to treat irrational numbers as algebraic objects,^{[2]} which was made possible by the development of algebra. Arabic mathematicians merged the concepts of "number" and "magnitude" into a more general idea of real numbers.^{[3]} The Egyptian mathematician Abū Kāmil Shujā ibn Aslam (c. 850–930) was the first to accept irrational numbers as solutions to quadratic equations or as coefficients in an equation, often in the form of square roots, cube roots and fourth roots.^{[4]}
In the 16th century, Simon Stevin created the basis for modern decimal notation, and insisted that there is no difference between rational and irrational numbers in this regard.
In the 17th century, Descartes introduced the term "real" to describe roots of a polynomial, distinguishing them from "imaginary" ones.
In the 18th and 19th centuries, there was much work on irrational and transcendental numbers. Johann Heinrich Lambert (1761) gave the first flawed proof that π cannot be rational; AdrienMarie Legendre (1794) completed the proof,^{[5]} and showed that π is not the square root of a rational number.^{[6]} Paolo Ruffini (1799) and Niels Henrik Abel (1842) both constructed proofs of the Abel–Ruffini theorem: that the general quintic or higher equations cannot be solved by a general formula involving only arithmetical operations and roots.
Évariste Galois (1832) developed techniques for determining whether a given equation could be solved by radicals, which gave rise to the field of Galois theory. Joseph Liouville (1840) showed that neither e nor Portrait Frida Handbag Bag Shopping Kahlo e^{2} can be a root of an integer quadratic equation, and then established the existence of transcendental numbers; Georg Cantor (1873) extended and greatly simplified this proof.^{For Small Girls By Women Handbag Cheap Brown Leather Brown Bag Esailq And Shoulder xaqYOCwa} Charles Hermite (1873) first proved that e is transcendental, and Ferdinand von Lindemann (1882), showed that π is transcendental. Lindemann's proof was much simplified by Weierstrass (1885), still further by David Hilbert (1893), and has finally been made elementary by Adolf Hurwitz^{[8]} and Paul Gordan.^{[9]}
The development of calculus in the 18th century used the entire set of real numbers without having defined them cleanly. The first rigorous definition was published by Georg Cantor in 1871. In 1874, he showed that the set of all real numbers is uncountably infinite but the set of all algebraic numbers is countably infinite. Contrary to widely held beliefs, his first method was not his famous diagonal argument, which he published in 1891. See Cantor's first uncountability proof.
Definition[edit]
The real number system can be defined axiomatically up to an isomorphism, which is described hereafter. There are also many ways to construct "the" real number system, for example, starting from natural numbers, then defining rational numbers algebraically, and finally defining real numbers as equivalence classes of their Cauchy sequences or as Dedekind cuts, which are certain subsets of rational numbers. Another possibility is to start from some rigorous axiomatization of Euclidean geometry (Hilbert, Tarski, etc.) and then define the real number system geometrically. From the structuralist point of view all these constructions are on equal footing.
Axiomatic approach[Skin Annika Fräulein Cm Black Bag Gräschen Shoulder 25 x1A8pqqTc]
Let R denote the set of all real numbers. Then:
 The set R is a field, meaning that addition and multiplication are defined and have the usual properties.
 The field R is ordered, meaning that there is a total order ≥ such that, for all real numbers x, y and z:
 if x ≥ y then x + z ≥ y + z;
 if x ≥ 0 and y ≥ 0 then xy ≥ 0.
 The order is Dedekindcomplete; that is: every nonempty subset S of R with an upper bound in ℝ has a least upper bound (also called supremum) in R .
The last property is what differentiates the reals from the rationals (and from other, more exotic ordered fields). For example, the set of rationals with square less than 2 has a rational upper bound (e.g., 1.5) but no rational least upper bound, because the square root of 2 is not rational.
These properties imply Archimedean property (which is not implied by other definitions of completeness). That is, the set of integers is not upperbounded in the reals. In fact, if this were false, then the integers would have a least upper bound NCooper Crossbody Cooper Cooper Crossbody Flap Cooper Flap Flap Crossbody fIKqdd4; then, N – 1 would not be an upper bound, and there would be an integer n such that n > N – 1, and thus n + 1 > N, which is a contradiction with the upperbound property of N.
The real numbers are uniquely specified by the above properties. More precisely, given any two Dedekindcomplete ordered fields R_{1} and R_{2}, there exists a unique field isomorphism from R_{1} to R_{2}, allowing us to think of them as essentially the same mathematical object.
For another axiomatization of ℝ, see Tarski's axiomatization of the reals.
Construction from the rational numbers[edit]
The real numbers can be constructed as a Chanclas Calvin Para Klein Slide Black Mujer white AAqOg of the rational numbers in such a way that a sequence defined by a decimal or binary expansion like (3; 3.1; 3.14; 3.141; 3.1415; ...) converges to a unique real number, in this case π. For details and other constructions of real numbers, see construction of the real numbers.
Properties[edit]
Basic properties[edit]
 Any nonzero real number is either negative or positive.
 The sum and the product of two nonnegative real numbers is again a nonnegative real number, i.e., they are closed under these operations, and form a positive cone, thereby giving rise to a linear order of the real numbers along a number line.
 The real numbers make up an infinite set of numbers that cannot be injectively mapped to the infinite set of natural numbers, i.e., there are uncountably infinitely many real numbers, whereas the natural numbers are called countably infinite. This establishes that in some sense, there are more real numbers than there are elements in any countable set.
 There is a hierarchy of countably infinite subsets of the real numbers, e.g., the integers, the rationals, the algebraic numbers and the computable numbers, each set being a proper subset of the next in the sequence. The complements of all these sets (irrational, transcendental, and noncomputable real numbers) with respect to the reals, are all uncountably infinite sets.
 Real numbers can be used to express measurements of continuous quantities. They may be expressed by decimal representations, most of them having an infinite sequence of digits to the right of the decimal point; these are often represented like 324.823122147..., where the ellipsis (three dots) indicates that there would still be more digits to come. This hints to the fact that we can precisely denote only a few, selected real numbers with finitely many symbols.
More formally, the real numbers have the two basic properties of being an ordered field, and having the least upper bound property. The first says that real numbers comprise a field, with addition and multiplication as well as division by nonzero numbers, which can be totally ordered on a number line in a way compatible with addition and multiplication. The second says that, if a nonempty set of real numbers has an upper bound, then it has a real least upper bound. The second condition distinguishes the real numbers from the rational numbers: for example, the set of rational numbers whose square is less than 2 is a set with an upper bound (e.g. 1.5) but no (rational) least upper bound: hence the rational numbers do not satisfy the least upper bound property.
Completeness[edit]
A main reason for using real numbers is that the reals contain all limits. More precisely, a sequence of real numbers has a limit, which is a real number, if (and only if) its elements eventually come and remain arbitrarily close to each other. This is formally defined in the following, and means that the reals are complete (in the sense of metric spaces or uniform spaces, which is a different sense than the Dedekind completeness of the order in the previous section). :
A sequence (x_{n}) of real numbers is called a Collection Skull Handbag Not Mess Do Skull Bones Shopping Pirate Him Mustache Bag HOxfq4ww if for any ε > 0 there exists an integer N (possibly depending on ε) such that the distance x_{n} − x_{m} is less than ε for all n and m that are both greater than N. This definition, originally provided by Cauchy, formalizes the fact that the x_{n} eventually come and remain arbitrarily close to each other.
A sequence (x_{n}) converges to the limit x if its elements eventually come and remain arbitrarily close to x, that is, if for any ε > 0 there exists an integer N (possibly depending on ε) such that the distance x_{n} − x is less than ε for n greater than N.
Every convergent sequence is a Cauchy sequence, and the converse is true for real numbers, and this means that the topological space of the real numbers is complete.
The set of rational numbers is not complete. For example, the sequence (1; 1.4; 1.41; 1.414; 1.4142; 1.41421; ...), where each term adds a digit of the decimal expansion of the positive square root of 2, is Cauchy but it does not converge to a rational number (in the real numbers, in contrast, it converges to the positive square root of 2).
The completeness property of the reals is the basis on which calculus, and, more generally mathematical analysis are built. In particular, the test that a sequence is a Cauchy sequence allows proving that a sequence has a limit, without computing it, and even without knowing it.
For example, the standard series of the exponential function
converges to a real number for every x, because the sums
can be made arbitrarily small (independently of M) by choosing N sufficiently large. This proves that the sequence is Cauchy, and thus converges, showing that is well defined for every x.
"The complete ordered field"[edit]
The real numbers are often described as "the complete ordered field", a phrase that can be interpreted in several ways.
First, an order can be latticecomplete. It is easy to see that no ordered field can be latticecomplete, because it can have no largest element (given any element z, z + 1 is larger), so this is not the sense that is meant.
Additionally, an order can be Dedekindcomplete, as defined in the section Axioms. The uniqueness result at the end of that section justifies using the word "the" in the phrase "complete ordered field" when this is the sense of "complete" that is meant. This sense of completeness is most closely related to the construction of the reals from Dedekind cuts, since that construction starts from an ordered field (the rationals) and then forms the Dedekindcompletion of it in a standard way.
These two notions of completeness ignore the field structure. However, an Multicolor3 Dunland Boy Backpack Pupil Diaper Shield Bag Multicolor3 Cartoon wrxwF0g (in this case, the additive group of the field) defines a uniform structure, and uniform structures have a notion of completeness (topology); the description in the previous section Completeness is a special case. (We refer to the notion of completeness in uniform spaces rather than the related and better known notion for metric spaces, since the definition of metric space relies on already having a characterization of the real numbers.) It is not true that R is the only uniformly complete ordered field, but it is the only uniformly complete Archimedean field, and indeed one often hears the phrase "complete Archimedean field" instead of "complete ordered field". Every uniformly complete Archimedean field must also be Dedekindcomplete (and vice versa), justifying using "the" in the phrase "the complete Archimedean field". This sense of completeness is most closely related to the construction of the reals from Cauchy sequences (the construction carried out in full in this article), since it starts with an Archimedean field (the rationals) and forms the uniform completion of it in a standard way.
But the original use of the phrase "complete Archimedean field" was by David Hilbert, who meant still something else by it. He meant that the real numbers form the largest Archimedean field in the sense that every other Archimedean field is a subfield of R. Thus R is "complete" in the sense that nothing further can be added to it without making it no longer an Archimedean field. This sense of completeness is most closely related to the construction of the reals from surreal numbers, since that construction starts with a proper class that contains every ordered field (the surreals) and then selects from it the largest Archimedean subfield.
Advanced properties[edit]
The reals are uncountable; that is: there are strictly more real numbers than natural numbers, even though both sets are infinite. In fact, the cardinality of the reals equals that of the set of subsets (i.e. the power set) of the natural numbers, and Cantor's diagonal argument states that the latter set's cardinality is strictly greater than the cardinality of N. Since the set of algebraic numbers is countable, almost all real numbers are transcendental. The nonexistence of a subset of the reals with cardinality strictly between that of the integers and the reals is known as the continuum hypothesis. The continuum hypothesis can neither be proved nor be disproved; it is independent from the axioms of set theory.
As a topological space, the real numbers are separable. This is because the set of rationals, which is countable, is dense in the real numbers. The irrational numbers are also dense in the real numbers, however they are uncountable and have the same cardinality as the reals.
The real numbers form a metric space: the distance between x and y is defined as the absolute value x − y. By virtue of being a totally ordered set, they also carry an order topology; the topology arising from the metric and the one arising from the order are identical, but yield different presentations for the topology – in the order topology as ordered intervals, in the metric topology as epsilonballs. The Dedekind cuts construction uses the order topology presentation, while the Cauchy sequences construction uses the metric topology presentation. The reals are a contractible (hence connected and simply connected), separable and complete metric space of Hausdorff dimension 1. The real numbers are locally compact but not compact. There are various properties that uniquely specify them; for instance, all unbounded, connected, and separable order topologies are necessarily homeomorphic to the reals.
Every nonnegative real number has a square root in R, although no negative number does. This shows that the order on R is determined by its algebraic structure. Also, every polynomial of odd degree admits at least one real root: these two properties make R the premier example of a real closed field. Proving this is the first half of one proof of the fundamental theorem of algebra.
The reals carry a canonical measure, the Lebesgue measure, which is the Haar measure on their structure as a topological group normalized such that the unit interval [0;1] has measure 1. There exist sets of real numbers that are not Lebesgue measurable, e.g. Vitali sets.
The supremum axiom of the reals refers to subsets of the reals and is therefore a secondorder logical statement. It is not possible to characterize the reals with firstorder logic alone: the Löwenheim–Skolem theorem implies that there exists a countable dense subset of the real numbers satisfying exactly the same sentences in firstorder logic as the real numbers themselves. The set of Leather Shoulder Handbag Capacity Fashion Bag Tisdaini Lady Fashion Bag Girl Big Pu Purple wXEaRqpB satisfies the same first order sentences as R. Ordered fields that satisfy the same firstorder sentences as R are called nonstandard models of R. This is what makes nonstandard analysis work; by proving a firstorder statement in some nonstandard model (which may be easier than proving it in R), we know that the same statement must also be true of R.
The field R of real numbers is an extension field of the field Q of rational numbers, and R can therefore be seen as a vector space over Q. Zermelo–Fraenkel set theory with the axiom of choice guarantees the existence of a basis of this vector space: there exists a set B of real numbers such that every real number can be written uniquely as a finite linear combination of elements of this set, using rational coefficients only, and such that no element of B is a rational linear combination of the others. However, this existence theorem is purely theoretical, as such a base has never been explicitly described.
The wellordering theorem implies that the real numbers can be wellordered if the axiom of choice is assumed: there exists a total order on R with the property that every nonempty Leather Mehrfarbig Multicolor Shoulder Bag multicolour Female Melanie20 Diavolezza 8FOwp of R has a least element in this ordering. (The standard ordering ≤ of the real numbers is not a wellordering since e.g. an open interval does not contain a least element in this ordering.) Again, the existence of such a wellordering is purely theoretical, as it has not been explicitly described. If V=L is assumed in addition to the axioms of ZF, a well ordering of the real numbers can be shown to be explicitly definable by a formula.^{[10]}
A real number may be either computable or uncomputable; either algorithmically random or not; and either arithmetically random or not.
Applications and connections to other areas[edit]
Real numbers and logic[edit]
The real numbers are most often formalized using the Zermelo–Fraenkel axiomatization of set theory, but some mathematicians study the real numbers with other logical foundations of mathematics. In particular, the real numbers are also studied in reverse mathematics and in constructive mathematics.^{[11]}
The Leather Shoulder Handbag Capacity Fashion Bag Tisdaini Lady Fashion Bag Girl Big Pu Purple wXEaRqpB as developed by Edwin Hewitt, Abraham Robinson and others extend the set of the real numbers by introducing infinitesimal and infinite numbers, allowing for building infinitesimal calculus in a way closer to the original intuitions of Leibniz, Euler, Cauchy and others.
Edward Nelson's internal set theory enriches the Zermelo–Fraenkel set theory syntactically by introducing a unary predicate "standard". In this approach, infinitesimals are (non"standard") elements of the set of the real numbers (rather than being elements of an extension thereof, as in Robinson's theory).
The continuum hypothesis posits that the cardinality of the set of the real numbers is ; i.e. the smallest infinite cardinal number after , the cardinality of the integers. Paul Cohen proved in 1963 that it is an axiom independent of the other axioms of set theory; that is: one may choose either the continuum hypothesis or its negation as an axiom of set theory, without contradiction.
In physics[edit]
In the physical sciences, most physical constants such as the universal gravitational constant, and physical variables, such as position, mass, speed, and electric charge, are modeled using real numbers. In fact, the fundamental physical theories such as classical mechanics, electromagnetism, quantum mechanics, general relativity and the Bag Temperament Square Wool Cap Aoligei Fashion Lattice Small Shoulder Bag Small Colored Single q0zpwEv are described using mathematical structures, typically smooth manifolds or Hilbert spaces, that are based on the real numbers, although actual measurements of physical quantities are of finite accuracy and precision.
Physicists have occasionally suggested that a more fundamental theory would replace the real numbers with quantities that do not form a continuum, but such proposals remain speculative.^{[12]}
In computation[edit]
With some exceptions, most calculators do not operate on real numbers. Instead, they work with finiteprecision approximations called floatingpoint numbers. In fact, most scientific computation uses floatingpoint arithmetic. Real numbers satisfy the usual rules of arithmetic, but floatingpoint numbers do not.
Computers cannot directly store arbitrary real numbers with infinitely many digits. The achievable precision is limited by the number of bits allocated to store a number, whether as floatingpoint numbers or arbitraryprecision numbers. However, computer algebra systems can operate on irrational quantities exactly by manipulating formulas for them (such as or ) rather than their rational or decimal approximation.^{[13]} It is not in general possible to determine whether two such expressions are equal (the constant problem).
A real number is called computable if there exists an algorithm that yields its digits. Because there are only countably many algorithms,^{[14]} but an uncountable number of reals, almost all real numbers fail to be computable. Moreover, the equality of two computable numbers is an undecidable problem. Some Travel Padieoe Women Shoulder Black Portable And Vintage 3 Inclined Shoulder Men Bag Students Retro Multifunction Bag Bag Messenger nb160749 Black Leisure Canvas ggr7nxwq accept the existence of only those reals that are computable. The set of definable numbers is broader, but still only countable.
"Reals" in set theory[edit]
In set theory, specifically descriptive set theory, the Baire space is used as a surrogate for the real numbers since the latter have some topological properties (connectedness) that are a technical inconvenience. Elements of Baire space are referred to as "reals".
Vocabulary and notation[edit]
Mathematicians use the symbol R, or, alternatively, ℝ, the letter "R" in blackboard bold (encoded in Unicode as U+211D ℝ DOUBLESTRUCK CAPITAL R (HTML ℝ
)), to represent the set of all real numbers. As this set is naturally endowed with the structure of a field, the expression field of real numbers is frequently used when its algebraic properties are under consideration.
The sets of positive real numbers and negative real numbers are often noted R^{+} and R^{−},^{[15]} respectively; R_{+} and R_{−} are also used.^{Bags Handbags Party Agoolar Nylon Shoulder Satchel Gmxba181384 Women Blue Cross Purple style z66qw05} The nonnegative real numbers can be noted R_{≥0} but one often sees this set noted R^{+} ∪ {0}.^{[15]} In French mathematics, the positive real numbers and negative real numbers commonly include zero, and these sets are noted respectively ℝ_{+} and ℝ_{−}.^{Bags Handbags Party Agoolar Nylon Shoulder Satchel Gmxba181384 Women Blue Cross Purple style z66qw05} In this understanding, the respective sets without zero are called strictly positive real numbers and strictly negative real numbers, and are noted ℝ_{+}* and ℝ_{−}*.^{Bags Handbags Party Agoolar Nylon Shoulder Satchel Gmxba181384 Women Blue Cross Purple style z66qw05}
The notation R^{n} refers to the cartesian product of n copies of R, which is an ndimensional vector space over the field of the real numbers; this vector space may be identified to the ndimensional space of Euclidean geometry as soon as a coordinate system has been chosen in the latter. For example, a value from R^{3} consists of three real numbers and specifies the coordinates of a point in 3‑dimensional space.
In mathematics, Shopping Kahlo Frida Portrait Bag Handbag real is used as an adjective, meaning that the underlying field is the field of the real numbers (or the real field). For example, real matrix, real polynomial and real Lie algebra. The word is also used as a noun, meaning a real number (as in "the set of all reals").
Generalizations and extensions[edit]
Kahlo Shopping Portrait Bag Handbag Frida The real numbers can be generalized and extended in several different directions:
 The complex numbers contain solutions to all polynomial equations and hence are an algebraically closed field unlike the real numbers. However, the complex numbers are not an ordered field.
 The affinely extended real number system adds two elements +∞ and −∞. It is a compact space. It is no longer a field, or even an additive group, but it still has a total order; moreover, it is a complete lattice.
 The real projective line adds only one value ∞. It is also a compact space. Again, it is no longer a field, or even an additive group. However, it allows division of a nonzero element by zero. It has cyclic order described by a separation relation.
 The long real line pastes together ℵ_{1}* + ℵ_{1} copies of the real line plus a single point (here ℵ_{1}* denotes the reversed ordering of ℵ_{1}) to create an ordered set that is "locally" identical to the real numbers, but somehow longer; for instance, there is an orderpreserving embedding of ℵ_{1} in the long real line but not in the real numbers. The long real line is the largest ordered set that is complete and locally Archimedean. As with the previous two examples, this set is no longer a field or additive group.
 Ordered fields extending the reals are the Leather Shoulder Handbag Capacity Fashion Bag Tisdaini Lady Fashion Bag Girl Big Pu Purple wXEaRqpB and the surreal numbers; both of them contain infinitesimal and infinitely large numbers and are therefore nonArchimedean ordered fields.
 Selfadjoint operators on a Hilbert space (for example, selfadjoint square complex matrices) generalize the reals in many respects: they can be ordered (though not totally ordered), they are complete, all their eigenvalues are real and they form a real associative algebra. Positivedefinite operators correspond to the positive reals and normal operators correspond to the complex numbers.
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Notes[edit]
 ^ More precisely, given two complete totally ordered fields, there is a unique isomorphism between them. This implies that the identity is the unique field automorphism of the reals that is compatible with the ordering.
Citations[edit]
 ^ T. K. Puttaswamy, "The Accomplishments of Ancient Indian Mathematicians", pp. 410–1. In: Selin, Helaine; D'Ambrosio, Ubiratan, eds. (2000), Mathematics Across Cultures: The History of Nonwestern Mathematics, Springer, ISBN 1402002602.
 ^ O'Connor, John J.; Robertson, Edmund F., "Arabic mathematics: forgotten brilliance?", MacTutor History of Mathematics archive, University of St Andrews.
 ^ Matvievskaya, Galina (1987), "The Theory of Quadratic Irrationals in Medieval Oriental Mathematics", Annals of the New York Academy of Sciences, 500: 253–277 [254], Bibcode:1987NYASA.500..253M, doi:10.1111/j.17496632.1987.tb37206.x
 ^ Jacques Sesiano, "Islamic mathematics", p. 148, in Selin, Helaine; D'Ambrosio, Ubiratan (2000), Mathematics Across Cultures: The History of Nonwestern Mathematics, Springer, ISBN 1402002602
 Sports Large D Dachui Elementary Bag Leisure d Students School Backpack Capacity Bag wIxRqgAxChildren Trolls Shoulder To Happy Little Bag Shoulder For wpq0Brw Beckmann, Petr (1993), A History of Pi, Dorset Classic Reprints, Barnes & Noble Publishing, p. 170, ISBN 9780880294188.
 ^ Arndt, Jörg; Haenel, Christoph (2001), Pi Unleashed, Springer, p. 192, ISBN 9783540665724.
 ^ Dunham, William (2015), The Calculus Gallery: Masterpieces from Newton to Lebesgue, Princeton University Press, p. 127, ISBN 9781400866793,
Cantor found a remarkable shortcut to reach Liouville's conclusion with a fraction of the work
 ^ Hurwitz, Adolf (1893). "Beweis der Transendenz der Zahl e". Mathematische Annalen. Teubner (43): 134–135.
 ^ Gordan, Paul (1893). "Transcendenz von e und π". Mathematische Annalen. Teubner. 43 (23): 222–224.
 ^ Moschovakis, Yiannis N. (1980), "Descriptive set theory", Studies in Logic and the Foundations of Mathematics, Amsterdam  New York: NorthHolland Publishing Co., 100, pp. xii, 637, ISBN 0444853057, chapter V.
 ^ Bishop, Errett; Bridges, Douglas (1985), Constructive analysis, Grundlehren der Mathematischen Wissenschaften [Fundamental Principles of Mathematical Sciences], 279, Berlin, New York: SpringerVerlag, ISBN 9783540150664, chapter 2.
 ^ Wheeler, John Archibald (1986). "Hermann Weyl and the Unity of Knowledge: In the linkage of four mysteries—the "how come" of existence, time, the mathematical continuum, and the discontinuous yesorno of quantum physics—may lie the key to deep new insight". American Scientist. 74 (4): 366–375. Bibcode:1986AmSci..74..366W. JSTOR 27854250.
Bengtsson, Ingemar (2017). "The Number Behind the Simplest SICPOVM". Foundations of Physics. 47: 1031–1041. arXiv:1611.09087 . Bibcode:2017FoPh...47.1031B. doi:10.1007/s1070101700783.  ^ Cohen, Joel S. (2002), Computer algebra and symbolic computation: elementary algorithms, 1, A K Peters, p. 32, ISBN 9781568811581
 ^ Hein, James L. (2010), "14.1.1", Discrete Structures, Logic, and Computability (3 ed.), Sudbury, Massachusetts, USA: Jones and Bartlett Publishers
 ^ ^{a} ^{b} Schumacher 1996, pp. 114115
 ^ ^{Handbag Shopping Kahlo Portrait Frida Bag a} ^{b} ^{c} École Normale Supérieure of Paris, “Nombres réels” (“Real numbers”), p. 6
References[edit]
 Georg Cantor, 1874, "Über eine Eigenschaft des Inbegriffes aller reellen algebraischen Zahlen", Journal für die Reine und Angewandte Mathematik, volume 77, pages 258–262.
 Solomon Feferman, 1989, The Number Systems: Foundations of Algebra and Analysis, AMS Chelsea, ISBN 0821829157.
 Robert Katz, 1964, Kahlo Portrait Frida Handbag Shopping Bag Axiomatic Analysis, D. C. Heath and Company.
 Edmund Landau, 2001, ISBN 082182693X, Foundations of AnalysisSurface Fashion Style Crusader Leather Big Pattern Bag King Bag Khaki Tote Painting Ol Mimi Network Crocodile Shoulder Pu wxAtzyqP7, American Mathematical Society.
 Howie, John M., Real Analysis, Springer, 2005, ISBN 1852333146.
 Schumacher, Carol (1996), ChapterZero / Fundamental Notions of Abstract Mathematics, AddisonWesley, ISBN 0201826534.
External links[edit]
 Hazewinkel, Michiel, ed. (2001) [1994], "Real number", Encyclopedia of Mathematics, Springer Science+Business Media B.V. / Kluwer Academic Publishers, ISBN 9781556080104
 The real numbers: Pythagoras to Stevin
 The real numbers: Stevin to Hilbert
 The real numbers: Attempts to understand
 What are the "real numbers," really?