3 (number) From Wikipedia, the free encyclopedia This article is about the number. For the year, see 3. For other uses, see 3 (disambiguation). This article may contain excessive, poor, or irrelevant examples. Please improve the article by adding more descriptive text and removing less pertinent examples. See Wikipedias guide to writing better articles for further suggestions. (July 2012) ← 2 3 4 → −1 0 1 2 3 4 5 6 7 8 9 → List of numbers — Integers ← 0 10 20 30 40 50 60 70 80 90 → Cardinal three Ordinal 3rd (third) Factorization prime Divisors 1, 3 Roman numeral III Roman numeral (unicode) Ⅲ, ⅲ Greek prefix tri- Latin prefix tre-/ter- Binary 112 Ternary 103 Quaternary 34 Quinary 35 Senary 36 Octal 38 Duodecimal 312 Hexadecimal 316 Vigesimal 320 Base 36 336 Arabic ٣,3 Urdu ۳ Bengali ৩ Chinese 三,弎,叁 Devanāgarī ३ (tin) Geez ፫ Greek γ (or Γ) Hebrew ג Japanese 三 Khmer ៣ Korean 셋,삼 Malayalam ൩ Tamil ௩ Telugu ౩ Thai ๓ 3 (three; /ˈθriː/) is a number, numeral, and glyph. It is the natural number following 2 and preceding 4. Contents [hide] 1 In mathematics 1.1 In numeral systems 1.2 List of basic calculations 2 Evolution of the glyph 3 In science 4 In religion 4.1 Christianity 4.2 In Buddhism 4.3 In Hinduism 4.4 In Norse mythology 4.5 Other religions 4.6 In esoteric tradition 4.7 As a lucky or unlucky number 5 In philosophy 6 In sports 7 See also 8 References 9 External links In mathematics[edit] Three is approximately π (actually closer to 3.14159) when doing rapid engineering guesses or estimates. The same is true if one wants a rough-and-ready estimate of e, which is actually approximately 2.71828. Three is the first odd prime number,[1] and the second smallest prime. It is both the first Fermat prime (22n + 1) and the first Mersenne prime (2n − 1), the only number that is both, as well as the first lucky prime. However, it is the second Sophie Germain prime, the second Mersenne prime exponent, the second factorial prime (2! + 1), the second Lucas prime, and the second Stern prime. Three is the first unique prime due to the properties of its reciprocal. Three is the aliquot sum of 4. Three is the third Heegner number. According to Pythagoras and the Pythagorean school, the number 3, which they called triad, is the noblest of all digits, as it is the only number to equal the sum of all the terms below it, and the only number whose sum with those below equals the product of them and itself.[2] Three is the second triangular number and it is the only prime triangular number. Three is the only prime which is one less than a perfect square. Any other number which is n2 − 1 for some integer n is not prime, since it is (n − 1)(n + 1). This is true for 3 as well (with n=2), but in this case the smaller factor is 1. If n is greater than 2, both n − 1 and n + 1 are greater than 1 so their product is not prime. Three non-collinear points determine a plane and a circle. Three is the fourth Fibonacci number. In the Perrin sequence, however, 3 is both the zeroth and third Perrin numbers. Three is the fourth open meandric number. Vulgar fractions with 3 in the denominator have a single digit repeating sequences in their decimal expansions, (.000..., .333..., .666...) A natural number is divisible by three if the sum of its digits in base 10 is divisible by 3. For example, the number 21 is divisible by three (3 times 7) and the sum of its digits is 2 + 1 = 3. Because of this, the reverse of any number that is divisible by three (or indeed, any permutation of its digits) is also divisible by three. For instance, 1368 and its reverse 8631 are both divisible by three (and so are 1386, 3168, 3186, 3618, etc.). See also Divisibility rule. This works in base 10 and in any positional numeral system whose base divided by three leaves a remainder of one (bases 4, 7, 10, etc.). 3 is the smallest prime of a Mersenne prime power tower: 3, 7, 127, 170141183460469231731687303715884105727; it is not known whether any more of the terms are prime. Three of the five regular polyhedra have triangular faces — the tetrahedron, the octahedron, and the icosahedron. Also, three of the five regular polyhedra have vertices where three faces meet — the tetrahedron, the hexahedron (cube), and the dodecahedron. Furthermore, only three different types of polygons comprise the faces of the five regular polyhedra — the triangle, the quadrilateral, and the pentagon. There are only three distinct 4×4 panmagic squares. Only three tetrahedral numbers are also perfect squares. The first number, according to the Pythagoreans, and the first male number. The first number, according to Proclus, i.e. n2 is greater than 2n. The trisection of the angle was one of the three famous problems of antiquity. 3 is the second triangular number. Gauss proved that every integer is the sum of at most 3 triangular numbers. Gauss proved that for any prime number p (with the sole exception of 3) the product of its primitive roots is ≡ 1 (mod p). Any number not in the form of 4n(8m+7) is the sum of 3 squares. In numeral systems[edit] Question book-new.svg This section does not cite any references or sources. Please help improve this section by adding citations to reliable sources. Unsourced material may be challenged and removed. (April 2014) It is frequently noted by historians of numbers that early counting systems often relied on the three-patterned concept of One, Two, Many to describe counting limits. Early peoples had a word to describe the quantities of one and two, but any quantity beyond was simply denoted as Many. As an extension to this insight, it can also be noted that early counting systems appear to have had limits at the numerals 2, 3, and 4. References to counting limits beyond these three do not appear to prevail as consistently in the historical record. List of basic calculations[edit] Multiplication 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 50 100 1000 3 \times x 3 6 9 12 15 18 21 24 27 30 33 36 39 42 45 48 51 54 57 60 63 66 69 72 75 150 300 3000 Division 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 3 \div x 3 1.5 1 0.75 0.6 0.5 0.\overline{428571} 0.375 0.\overline{3} 0.3 0.\overline{27} 0.25 0.\overline{230769} 0.2\overline{142857} 0.2 x \div 3 0.\overline{3} 0.\overline{6} 1 1.\overline{3} 1.\overline{6} 2 2.\overline{3} 2.\overline{6} 3 3.\overline{3} 3.\overline{6} 4 4.\overline{3} 4.\overline{6} 5 Exponentiation 1 2 3 4 5 6 7 8 9 10 11 12 13 3 ^ x\, 3 9 27 81 243 729 2187 6561 19683 59049 177147 531441 1594323 x ^ 3\, 1 8 27 64 125 216 343 512 729 1000 1331 1728 2197 Evolution of the glyph[edit] Evolution3glyph.png Three is the largest number still written with as many lines as the number represents. (The Ancient Romans usually wrote 4 as IIII, but this was almost entirely replaced by the subtractive notation IV in the Middle Ages.) To this day 3 is written as three lines in Roman and Chinese numerals. This was the way the Brahmin Indians wrote it, and the Gupta made the three lines more curved. The Nagari started rotating the lines clockwise and ending each line with a slight downward stroke on the right. Eventually they made these strokes connect with the lines below, and evolved it to a character that looks very much like a modern 3 with an extra stroke at the bottom. It was the Western Ghubar Arabs who finally eliminated the extra stroke and created our modern 3. (The extra stroke, however, was very important to the Eastern Arabs, and they made it much larger, while rotating the strokes above to lie along a horizontal axis, and to this day Eastern Arabs write a 3 that looks like a mirrored 7 with ridges on its top line): ٣[3] While the shape of the 3 character has an ascender in most modern typefaces, in typefaces with text figures the character usually has a descender, as, for example, in Text figures 036.svg. In some French text-figure typefaces, though, it has an ascender instead of a descender. A common variant of the digit 3 has a flat top, similar to the character Ʒ (ezh). Since this form is sometimes used to prevent people from fraudulently changing a 3 into an 8, it is sometimes called a bankers 3. In science[edit] The Roman numeral III stands for giant star in the Yerkes spectral classification scheme. Three is the atomic number of lithium. We perceive our universe to have three spatial dimensions, but some theories suggest there are more that were not able to detect, such as string theory. In religion[edit] Main article: Triple deity Many world religions contain triple deities or concepts of trinity, including: the Christian Holy Trinity the Hindu Trimurti the Hindu Tridevi the Three Jewels of Buddhism the Three Pure Ones of Taoism the Triple Goddess of Wicca The Shield of the Trinity is a diagram of the Christian doctrine of the Trinity Christianity[edit] The threefold office of Christ is a Christian doctrine that Christ performs the functions of prophet, priest, and king. In Buddhism[edit] The Triple Bodhi (ways to understand the end of birth) are Budhu, Pasebudhu, and Mahaarahath. In Hinduism[edit] The Om symbol, in Devanagari is also written ओ३म् (ō̄m [õːːm]), where ३ is दीर्घ (dirgha, three times as long) The Trimurti: Brahma the Creator, Vishnu the Preserver, and Shiva the Destroyer. The three Gunas underlie action, in the Vedic system of knowledge. In Norse mythology[edit] Three is a very significant number in Norse mythology, along with its powers 9 and 27. Prior to Ragnarök, there will be three hard winters without an intervening summer, the Fimbulwinter. Odin endured three hardships upon the World Tree in his quest for the runes: he hanged himself, wounded himself with a spear, and suffered from hunger and thirst. Bor had three sons, Odin, Vili, and Vé. Other religions[edit] The Wiccan Rule of Three. The Triple Goddess: Maiden, Mother, Crone; the three fates. In esoteric tradition[edit] The Theosophical Society has three conditions of membership. Gurdjieffs Three Centers and the Law of Three. As a lucky or unlucky number[edit] Question book-new.svg This section does not cite any references or sources. Please help improve this section by adding citations to reliable sources. Unsourced material may be challenged and removed. (April 2009) Three (三, formal writing: 叁, pinyin sān, Cantonese: saam1) is considered a good number in Chinese culture because it sounds like the word alive (生 pinyin shēng, Cantonese: saang1), compared to four (四, pinyin: sì, Cantonese: sei1), which sounds like the word death (死 pinyin sǐ, Cantonese: sei2). Counting to three is common in situations where a group of people wish to perform an action in synchrony: Now, on the count of three, everybody pull! Assuming the counter is proceeding at a uniform rate, the first two counts are necessary to establish the rate, and the count of three is predicted based on the timing of the one and two before it. Three is likely used instead of some other number because it requires the minimal amount counts while setting a rate. In Vietnam, there is a superstition that considers it bad luck to take a photo with three people in it; it is professed that the person in the middle will die soon. There is another superstition that it is unlucky to take a third light, that is, to be the third person to light a cigarette from the same match or lighter. This superstition is sometimes asserted to have originated among soldiers in the trenches of the First World War when a sniper might see the first light, take aim on the second and fire on the third. The phrase Third times the charm refers to the superstition that after two failures in any endeavor, a third attempt is more likely to succeed. This is also sometimes seen in reverse, as in third man [to do something, presumably forbidden] gets caught. Luck, especially bad luck, is often said to come in threes.[4] In philosophy[edit] Main article: Trichotomy (philosophy) The three Doshas (weaknesses) and their antidotes are the basis of Ayurvedic medicine in India. Philosophers such as Aquinas, Kant, Hegel, and C. S. Peirce have made threefold divisions, or trichotomies, which have been important in their work. Hegels dialectic of Thesis + Antithesis = Synthesis creates three-ness from two-ness. In sports[edit] In association football in almost all leagues, and in the group phases of most international competitions, 3 competition points are awarded for a win. In Gaelic football, hurling and camogie, a goal, with a scoring value of 3, is awarded when the attacking team legally sends the ball into the opponents goal. In baseball, 3 is the number of strikes before the batter is out and the number of outs per side per inning; in scorekeeping, 3 is the position of first-baseman. In basketball: A shot made from behind the three-point arc is worth 3 points (except in the 3x3 variant, in which it is worth 2 points). A potential three-point play exists when a player is fouled while successfully completing a two-point field goal, thus being awarded one additional free throw attempt. On offense, the 3-second rule states that an offensive player cannot remain in the opponents free throw lane for more than 3 seconds while his team is in possession of the ball and the clock is running. In the NBA only, the defensive 3-second violation, also known as illegal defense, states that a defensive player cannot remain in his own free throw lane for more than 3 seconds unless he is actively guarding an offensive player. The 3 position is the small forward (SF). A hat-trick in sports is associated with succeeding at anything three times in three consecutive attempts, as well as when any player in ice hockey or soccer scores three goals in one game (whether or not in succession). In cricket, if a bowler takes 3 wickets in a row it is called a hat trick. A threepeat is a term for a team that wins three consecutive championships. A triathlon consists of three events: swimming, bicycling, and running. A pin (professional wrestling) in professional wrestling is when ones shoulders are held the opponents shoulders against the mat for a count of three. See also[edit] Portal icon Mathematics portal Cube (algebra) – (3 superscript) Third References[edit] This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (May 2013) Jump up ^ Bryan Bunch, The Kingdom of Infinite Number. New York: W. H. Freeman & Company (2000): 39 Jump up ^ Priya Hemenway (2005), Divine Proportion: Phi In Art, Nature, and Science, Sterling Publishing Company Inc., pp. 53–54, ISBN 1-4027-3522-7 Jump up ^ Georges Ifrah, The Universal History of Numbers: From Prehistory to the Invention of the Computer transl. David Bellos et al. London: The Harvill Press (1998): 393, Fig. 24.63 Jump up ^ See bad in the Oxford Dictionary of Phrase and Fable, 2006, via Encyclopedia. Wells, D. The Penguin Dictionary of Curious and Interesting Numbers London: Penguin Group. (1987): 46–48 External links[edit] Look up three in Wiktionary, the free dictionary. Wikimedia Commons has media related to 3. Tricyclopedic Book of Threes by Michael Eck Threes in Human Anatomy by Dr. John A. McNulty Grime, James. 3 is everywhere. Numberphile. Brady Haran. The Number 3 The Positive Integer 3 Prime curiosities: 3 [hide] v t e Integers [hide] 0s 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 [show] 100s [show] 200s [show] 300s [show] 400s [show] 500s [show] 600s [show] 700s [show] 800s [show] 900s Categories: Integers
Posted on: Sun, 06 Jul 2014 21:29:19 +0000