Orders of magnitude (numbers)
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This list contains selected positive numbers in increasing order, including counts of things, dimensionless quantity and probabilities. Each number is given a name in the short scale, which is used in English-speaking countries, as well as a name in the long scale, which is used in some of the countries that do not have English as their national language.
- 1 Smaller than 10−100 (one googolth)
- 2 10−100 to 10−30
- 3 10−30
- 4 10−27
- 5 10−24
- 6 10−21
- 7 10−18
- 8 10−15
- 9 10−12
- 10 10−9
- 11 10−6
- 12 10−3
- 13 10−2
- 14 10−1
- 15 100
- 16 101
- 17 102
- 18 103
- 19 104
- 20 105
- 21 106
- 22 107
- 23 108
- 24 109
- 25 1010
- 26 1011
- 27 1012
- 28 1015
- 29 1018
- 30 1021
- 31 1024
- 32 1027
- 33 1030
- 34 1033
- 35 1036
- 36 1039
- 37 1042 to 10100
- 38 10100 (one googol) to 1010100 (one googolplex)
- 39 Larger than 1010100
- 40 See also
- 41 References
- 42 External links
Smaller than 10−100 (one googolth)
- Mathematics – Numbers: The number zero is a natural number which quantifies a count or an amount of null size.
- Mathematics – Writing: Approximately 10−183,800 is a rough first estimate of the probability that a monkey, placed in front of a typewriter, will perfectly type out William Shakespeare's play Hamlet on its first try. However, taking punctuation, capitalization, and spacing into account, the actual probability is far lower: around 10−360,783.
- Computing: The number 1×10−6176 is equal to the smallest positive non-zero value that can be represented by a quadruple-precision IEEE decimal floating-point value.
- Computing: The number 6.5×10−4966 is approximately equal to the smallest positive non-zero value that can be represented by a quadruple-precision IEEE floating-point value.
- Computing: The number 3.6×10−4951 is approximately equal to the smallest positive non-zero value that can be represented by a 80-bit x86 double-extended IEEE floating-point value.
- Computing: The number 1×10−398 is equal to the smallest positive non-zero value that can be represented by a double-precision IEEE decimal floating-point value.
- Computing: The number 4.9×10−324 is approximately equal to the smallest positive non-zero value that can be represented by a double-precision IEEE floating-point value.
- Computing: The number 1×10−101 is equal to the smallest positive non-zero value that can be represented by a single-precision IEEE decimal floating-point value.
10−100 to 10−30
- Mathematics: The chances of shuffling a standard 52-card deck in any specific order is around 1.2×10−68 (exactly 1/52!)
- Computing: The number 1.4×10−45 is approximately equal to the smallest positive non-zero value that can be represented by a single-precision IEEE floating-point value.
- Mathematics: The probability in a game of bridge of all four players getting a complete suit is approximately ×10−28. 4.47
ISO: yocto- (y)
ISO: zepto- (z)
- Mathematics: The probability of matching 20 numbers for 20 in a game of keno is approximately 2.83 × 10−19.
ISO: atto- (a)
- Mathematics: The probability of rolling snake eyes 10 times in a row on a pair of fair dice is about ×10−16. 2.74
ISO: femto- (f)
ISO: pico- (p)
- Mathematics: The probability in a game of bridge of one player getting a complete suit is approximately ×10−11 ( 2.520.00000000252%).
- Biology: Human visual sensitivity to 1000 nm light is approximately ×10−10 of its 1.0peak sensitivity at 555 nm.
ISO: nano- (n)
- Mathematics – Lottery: The odds of winning the Grand Prize (matching all 6 numbers) in the US Powerball lottery, with a single ticket, under the rules as of January 2014[update], are 175,223,510 to 1 against, for a probability of ×10−9 ( 5.7070.0000005707%).
- Mathematics – Lottery: The odds of winning the Grand Prize (matching all 6 numbers) in the Australian Powerball lottery, with a single ticket, under the rules as of March 2013[update], are 76,767,600 to 1 against, for a probability of ×10−8 ( 1.3030.000001303%).
- Mathematics – Lottery: The odds of winning the Jackpot (matching the 6 main numbers) in the UK National Lottery, with a single ticket, under the rules as of August 2009[update], are 13,983,815 to 1 against, for a probability of ×10−8 ( 7.1510.000007151%).
ISO: micro- (μ)
- Mathematics – Poker: The odds of being dealt a royal flush in poker are 649,739 to 1 against, for a probability of 1.5 × 10−6 (0.00015%).
- Mathematics – Poker: The odds of being dealt a straight flush (other than a royal flush) in poker are 72,192 to 1 against, for a probability of 1.4 × 10−5 (0.0014%).
- Mathematics – Poker: The odds of being dealt a four of a kind in poker are 4,164 to 1 against, for a probability of 2.4 × 10−4 (0.024%).
(0.001; 1000−1; one thousandth)
ISO: milli- (m)
- Mathematics – Poker: The odds of being dealt a full house in poker are 693 to 1 against, for a probability of 1.4 × 10−3 (0.14%).
- Mathematics – Poker: The odds of being dealt a flush in poker are 507.8 to 1 against, for a probability of 1.9 × 10−3 (0.19%).
- Mathematics – Poker: The odds of being dealt a straight in poker are 253.8 to 1 against, for a probability of 4 × 10−3 (0.39%).
- Physics: α = 297352570(5), the 0.007fine-structure constant.
(0.01; one hundredth)
ISO: centi- (c)
- Mathematics – Lottery: The odds of winning any prize in the UK National Lottery, with a single ticket, under the rules as of 2003, are 54 to 1 against, for a probability of about 0.018 (1.8%).
- Mathematics – Poker: The odds of being dealt a three of a kind in poker are 46 to 1 against, for a probability of 0.021 (2.1%).
- Mathematics – Lottery: The odds of winning any prize in the Powerball, with a single ticket, under the rules as of 2006, are 36.61 to 1 against, for a probability of 0.027 (2.7%).
- Mathematics – Poker: The odds of being dealt two pair in poker are 20 to 1 against, for a probability of 0.048 (4.8%).
(0.1; one tenth)
ISO: deci- (d)
- Mathematics – Poker: The odds of being dealt only one pair in poker are about 5 to 2 against (2.37 to 1), for a probability of 0.42 (42%).
- Mathematics – Poker: The odds of being dealt no pair in poker are nearly 1 to 2, for a probability of about 0.5 (50%).
- Legal history: 10% was widespread as the tax raised for income or produce in the ancient and medieval period; see tithe.
- Demography: The population of Monowi, an incorporated village in Nebraska, United States, was one in 2010.
- Mathematics: √ ≈ 1.414213562373095489, the ratio of the diagonal of a square to its side length.
- Mathematics: φ ≈ 1.618033988749895848, the golden ratio.
- Mathematics: the number system understood by most computers, the binary system, uses 2 digits: 0 and 1.
- Mathematics: e ≈ 2.718281828459045087, the base of the natural logarithm.
- Mathematics: π ≈ 3.141592653589793238, the ratio of a circle's circumference to its diameter.
- Biology: 7 ± 2, in cognitive science, George A. Miller's estimate of the number of objects that can be simultaneously held in human working memory.
- Astronomy: 8 planets in the Solar System.
ISO: deca- (da)
- Demography: The population of Pesnopoy, a village in Bulgaria, was 10 in 2007.
- Human scale: There are 10 digits on a pair of human hands, and 10 toes on a pair of human feet.
- Mathematics: The number system used in everyday life, the decimal system, has 10 digits: 0,1,2,3,4,5,6,7,8,9.
- Mathematics: The hexadecimal system, a common number system used in computer programming, uses 16 digits where the last 6 are usually represented by letters: 0,1,2,3,4,5,6,7,8,9,A,B,C,D,E,F.
- Science Fiction: The 23 enigma plays a prominent role in the plot of The Illuminatus! Trilogy by Robert Shea and Robert Anton Wilson.
- Alphabetic writing: There are 26 letters in the Latin-derived English alphabet.
- Science Fiction: The number 42, in the novel The Hitchhiker's Guide to the Galaxy by Douglas Adams, is the Answer to the Ultimate Question of Life, the Universe, and Everything which is calculated by an enormous supercomputer over a period of 7.5 million years.
- Biology: Each human cell contains 46 chromosomes.
- Phonology: 47 phonemes in English phonology in Received Pronunciation.
ISO: hecto- (h)
- Demography: The population of Nassau Island, part of the Cook Islands, is around 100.
- European history: Groupings of 100 homesteads was a common administrative unit in Northern Europe and Great Britain (see Hundred (county subdivision)).
- Computing: There are 128 characters in the ASCII character set.
- Phonology: The Taa language is estimated to have between 130 and 164 distinct phonemes.
- Political Science: There were 193 member states of the United Nations as of 2011.
- Demography: Vatican City, the least populous country, has an approximate population of 842, as of July 2014.
ISO: kilo- (k)
- Demography: The population of Ascension Island is 1,122.
- Typesetting: 2,000–3,000 letters on a typical typed page of text.
- Mathematics: 2,520 is the least common multiple of every integer under (and including) 10.
- Biology: the DNA of the simplest viruses has 3,000 base pairs.
- Military history: 4,200 (Republic) or 5,200 (Empire) was the standard size of a Roman legion.
- Linguistics: Estimates for the linguistic diversity of living human languages or dialects range between 5,000 and 10,000 (SIL Ethnologue in 2009 listed 6,909 known living languages).
- Lexicography: 8,674 unique words in the Hebrew Bible.
- Biology: Each neuron in the human brain is estimated to connect to 10,000 others.
- Demography: The population of Tuvalu was 10,544 in 2007.
- Lexicography: 14,500 unique English words occur in the King James Version of the Bible.
- Language: There are 20,000–40,000 distinct Chinese characters.
- Biology: Each human being is estimated to have 20,000 coding genes.
- Grammar: Each regular verb in Cherokee can have 21,262 inflected forms.
- Mathematics: 65,537 is the largest known Fermat prime.
- Memory: As of 2015[update], the largest number of decimal places of π that have been recited from memory is 70,000.
- Demography: The population of Saint Vincent and the Grenadines was 100,982 in 2009.
- Biology – Strands of hair on a head: The average human head has about 100,000–150,000 strands of hair.
- Literature: approximately 100,000 verses (shlokas) in the Mahabharata.
- Language: 267,000 words in James Joyce's Ulysses.
- Mathematics: 284,000 – The approximate number of entries in The On-Line Encyclopedia of Integer Sequences as of March 2017[update].
- Genocide: 300,000 people killed in the Rape of Nanking.
- Language – English words: The New Oxford Dictionary of English contains about 360,000 definitions for English words.
- Literature: 564,000 words in War and Peace by Leo Tolstoy.
- Literature: 930,000 words in the King James Version of the Bible.
ISO: mega- (M)
- Demography: The population of Riga, Latvia was 1,003,949 in 2004, according to Eurostat.
- Biology – Species: The World Resources Institute claims that approximately 1.4 million species have been named, out of an unknown number of total species (estimates range between 2 and 100 million species) Some scientists give 8.8 million species as an exact figure.
- Genocide: Approximately 800,000–1,500,000 (1.5 million) Armenians were killed in the Armenian Genocide.
- Info: The freedb database of CD track listings has around 1,750,000 entries as of June 2005[update].
- Mathematics – Playing cards: There are 2,598,960 different 5-card poker hands that can be dealt from a standard 52-card deck.
- Info – Web sites: As of May 24, 2017, Wikipedia contains approximately 5411000 articles in the English language.
- Geography/Computing – Geographic places: The NIMA GEOnet Names Server contains approximately 3.88 million named geographic features outside the United States, with 5.34 million names. The USGS Geographic Names Information System claims to have almost 2 million physical and cultural geographic features within the United States.
- Genocide: Approximately 5,100,000–6,200,000 Jews were killed in the Holocaust.
- Demography: The population of Haiti was 10,085,214 in 2010.
- Mathematics: 12,988,816 is the number of domino tilings of an 8×8 checkerboard.
- Computing: 16,777,216 different colors can be generated using the hex code system in HTML (It has been estimated that the trichromatic color vision of the human eye can only distinguish about 1,000,000 different colors).
- Science Fiction: In Isaac Asimov's Galactic Empire, in what we call 22,500 CE there are 25,000,000 different inhabited planets in the Galactic Empire, all inhabited by humans in Asimov's "human galaxy" scenario.
- Demography: The population of the Indian state of Bihar was 103,804,637 in 2007.
- Info – Books: The British Library claims that it holds over 150 million items. The Library of Congress claims that it holds approximately 148 million items. See The Gutenberg Galaxy.
- Info – Web sites: As of November 2011[update], the Netcraft web survey estimates that there are 525,998,433 (526 million) distinct websites.
- Mathematics: More than 215,000,000 mathematical constants are collected on the Plouffe's Inverter as of 2010[update].
- Mathematics: 275,305,224 is the number of 5×5 normal magic squares, not counting rotations and reflections. This result was found in 1973 by Richard Schroeppel.
- Mathematics: 358,833,097 stellations of the rhombic triacontahedron.
- Astronomy – Cataloged stars: The Guide Star Catalog II has entries on 998,402,801 distinct astronomical objects.
ISO: giga- (G)
- Demography: The population of Africa reached 1,000,000,000 sometime in 2009.
- Demographics – India: 1,210,000,000 – approximate population of India in 2011.
- Demographics – China: 1,347,000,000 – approximate population of the People's Republic of China in 2011.
- Internet: Approximately 1,500,000,000 active users were on Facebook as of October 2015.
- Computing – Computational limit of a 32-bit CPU: 2 147 483 647 is equal to 231−1, and as such is the largest number which can fit into a signed (two's complement) 32-bit integer on a computer.
- Biology – base pairs in the genome: approximately 3×109 base pairs in the human genome.
- Linguistics: 3,400,000,000 – the total number of speakers of Indo-European languages, of which 2,400,000,000 are native speakers; the other 1,000,000,000 speak Indo-European languages as a second language.
- Mathematics and computing: 4,294,967,295 (232 − 1), the product of the five known Fermat primes and the maximum value for a 32-bit unsigned integer in computing.
- Computing – IPv4: 4,294,967,296 (232) possible unique IP addresses.
- Computing: 4,294,967,296 – the number of bytes in 4 gibibytes; in computation, the 32-bit computers can directly access 232 pieces of address space, this leads directly to the 4 gigabyte limit on main memory.
- Mathematics: 4,294,967,297 is a Fermat number and semiprime. It is the smallest number of the form which is not a prime number.
- Demographics – world population: 7,000,000,000 – Estimated population for the world on 31 October 2011, the Day of Seven Billion.
- Biology – bacteria in the human body: There are roughly 1010 bacteria in the human mouth.
- Computing – web pages: approximately 5.6×1010 web pages indexed by Google as of 2010.
- Biology – Neurons in the brain: approximately (1±0.2) × 1011 neurons in the human brain.
- Paleodemography: approximately (1.2±0.3) × 1011 individuals of Homo sapiens have lived since speciation.
- Astronomy – stars in our galaxy: of the order of 1011 stars in the Milky Way galaxy.
- Astronomy –galaxies in the observable universe: of the order of 1011 galaxies in the observable universe.
ISO: tera- (T)
- Astronomy: Andromeda Galaxy, which is part of the same Local Group as our galaxy, contains about 1012 stars.
- Biology– Bacteria on the human body: The surface of the human body houses roughly 1012 bacteria.
- Wikipedia: 1.9786782 * 1012 is a rough estimate of the total number of links on Wikipedia.
- Marine biology: 3,500,000,000,000 (3.5 × 1012) – estimated population of fish in the ocean.
- Mathematics: 7,625,597,484,987 – a number that often appears when dealing with powers of 3. It can be expressed as , , , and 33 or when using Knuth's up-arrow notation it can be expressed as and .
- Mathematics: 1013 – The approximate number of known non-trivial zeros of the Riemann zeta function as of 2004[update].
- Mathematics – Known digits of π: As of 2013[update], the number of known digits of π is 12,100,000,000,000 (1.21×1013).
- Biology – approximately 1014 synapses in the human brain.
- Biology – Cells in the human body: The human body consists of roughly 1014 cells, of which only 1013 are human. The remaining 90% non-human cells (though much smaller and constituting much less mass) are bacteria, which mostly reside in the gastrointestinal tract, although the skin is also covered in bacteria.
- Computing – MAC-48: 281,474,976,710,656 (248) possible unique physical addresses.
- Mathematics: 953,467,954,114,363 is the largest known Motzkin prime.
ISO: peta- (P)
- Biology-Insects: 1,000,000,000,000,000 to 10,000,000,000,000,000 (1015 to 1016) – The estimated total number of ants on Earth alive at any one time (their biomass is approximately equal to the total biomass of the human race).
- Computing: 9,007,199,254,740,992 (253) – number until which all integer values can exactly be represented in IEEE double precision floating-point format.
- Mathematics: 48,988,659,276,962,496 is the fifth taxicab number.
- Science Fiction: In Isaac Asimov's Galactic Empire, in what we call 22,500 CE there are 25,000,000 different inhabited planets in the Galactic Empire, all inhabited by humans in Asimov's "human galaxy" scenario, each with an average population of 2,000,000,000, thus yielding a total Galactic Empire population of approximately 50,000,000,000,000,000.
- Cryptography: There are 7.205759×1016 different possible keys in the obsolete 56 bit DES symmetric cipher.
ISO: exa- (E)
- Mathematics: Goldbach's conjecture has been verified for all n≤ 4 × 1018; that is, all prime numbers up to that value at least have been computed, but not necessarily stored.
- Computing – Manufacturing: An estimated 6×1018 transistors were produced worldwide in 2008.
- Computing – Computational limit of a 64-bit CPU: 9,223,372,036,854,775,807 (about 9.22×1018) is equal to 263−1, and as such is the largest number which can fit into a signed (two's complement) 64-bit integer on a computer.
- Mathematics – NCAA Basketball Tournament: There are 9,223,372,036,854,775,808 (263) possible ways to enter the bracket.
- Mathematics – Bases: 9,439,829,801,208,141,318 (≈9.44×1018) is the 10th and (by conjecture) largest number with more than one digit that can be written from base 2 to base 18 using only the digits 0 to 9.
- Biology – Insects: It has been estimated that the insect population of the Earth is about 1019.
- Mathematics – Answer to the wheat and chessboard problem: When doubling the grains of wheat on each successive square of a chessboard, beginning with one grain of wheat on the first square, the final number of grains of wheat on all 64 squares of the chessboard when added up is 264−1 = 18,446,744,073,709,551,615 (≈1.84×1019).
- Mathematics – Legends: In the legend called the Tower of Brahma about a Hindu temple which contains a large room with three posts on one of which is 64 golden discs, the object of the mathematical game is for the Brahmins in the temple to move all of the discs to another pole so that they are in the same order, never placing a larger disc above a smaller disc. It would take 264−1 = 18,446,744,073,709,551,615 (≈1.84×1019) turns to complete the task (same number as the wheat and chessboard problem above).
- Mathematics – Rubik's Cube: There are 43,252,003,274,489,856,000 (≈4.33×1019) different positions of a 3x3x3 Rubik's Cube.
- Password strength: Usage of the 95-character set found on standard computer keyboards for a 10-character password yields a computationally intractable 59,873,693,923,837,890,625 (9510, approximately 5.99×1019) permutations.
- Economics: Hyperinflation in Zimbabwe estimated in February 2009 by some economists at 10 sextillion percent, or a factor of 1020
ISO: zetta- (Z)
- Geo – Grains of sand: All the world's beaches combined have been estimated to hold roughly 1021 grains of sand.
- Computing – Manufacturing: Intel predicted that there would be 1.2×1021 transistors in the world by 2015 and Forbes estimated that 2.9×1021 transistors had been shipped up to 2014.
- Mathematics – Sudoku: There are 6,670,903,752,021,072,936,960 (≈6.7×1021) 9×9 sudoku grids.
- Astronomy – Stars: 70 sextillion = 7×1022, the estimated number of stars within range of telescopes (as of 2003).
- Astronomy – Stars: in the range of 1023 to 1024 stars in the observable universe.
- Mathematics: 146,361,946,186,458,562,560,000 (≈1.5×1023) is the fifth unitary perfect number.
- Chemistry – Physics: Avogadro constant (≈6×1023) is the number of constituents (e.g. atoms or molecules) in one mole of a substance, defined for convenience as expressing the order of magnitude separating the molecular from the macroscopic scale.
ISO: yotta- (Y)
- Mathematics: 2,833,419,889,721,787,128,217,599 (≈2.8×1024) is a Woodall prime.
- Biology – Atoms in the human body: the average human body contains roughly 7×1027 atoms.
- Mathematics – Poker: the number of unique combinations of hands and shared cards in a 10-player game of Texas Hold'em is approximately 2.117×1028; see Poker probability (Texas hold 'em).
- Biology – Bacterial cells on Earth: The number of bacterial cells on Earth is estimated at around 5,000,000,000,000,000,000,000,000,000,000, or 5 × 1030.
- Mathematics: The number of partitions of 1000 is 24,061,467,864,032,622,473,692,149,727,991.
- Mathematics: 2108 = 324,518,553,658,426,726,783,156,020,576,256 is the largest known power of two not containing the digit '9' in its decimal representation.
- Mathematics – Alexander's Star: There are 72,431,714,252,715,638,411,621,302,272,000,000 (about 7.24×1034) different positions of Alexander's Star.
- Physics: ke e2 / Gm2, the ratio of the electromagnetic to the gravitational forces between two protons, is roughly 1036.
- Mathematics: = 170,141,183,460,469,231,731,687,303,715,884,105,727 (≈1.7×1038) is a double Mersenne prime.
- Computing: 2128 = 340,282,366,920,938,463,463,374,607,431,768,211,456 (≈3.40282367×1038), the theoretical maximum number of Internet addresses that can be allocated under the IPv6 addressing system, one more than the largest value that can be represented by a single-precision IEEE floating-point value, the total number of different Universally Unique Identifiers (UUIDs) that can be generated.
- Cryptography: 2128 = 340,282,366,920,938,463,463,374,607,431,768,211,456 (≈3.40282367×1038), the total number of different possible keys in the AES 128-bit key space (symmetric cipher).
- Cosmology: The Eddington–Dirac number is roughly 1040.
- Mathematics: 69,720,375,229,712,477,164,533,808,935,312,303,556,800 (≈6.97×1040) is the least common multiple of every integer from 1 to 100.
1042 to 10100
- Mathematics: 141×2141+1 = 393,050,634,124,102,232,869,567,034,555,427,371,542,904,833 (≈3.93×1044) is the second Cullen prime.
- Mathematics: There are 7,401,196,841,564,901,869,874,093,974,498,574,336,000,000,000 (≈7.4×1045) possible permutations for the Rubik's Revenge (4x4x4 Rubik's Cube).
- Chess: 4.52×1046 is a proven upper bound for the number of legal chess positions.
- Mathematics: 808,017,424,794,512,875,886,459,904,961,710,757,005,754,368,000,000,000 (≈8.08×1053) is the order of the Monster group.
- Cryptography: 2192 = 6,277,101,735,386,680,763,835,789,423,207,666,416,102,355,444,464,034,512,896 (6.27710174×1057), the total number of different possible keys in the AES 192-bit key space (symmetric cipher).
- Cosmology: 8×1060 is roughly the number of Planck time intervals since the universe is theorised to have been created in the Big Bang 13.799 ± 0.021 billion years ago.
- Cosmology: 1×1063 is Archimedes’ estimate in The Sand Reckoner of the total number of grains of sand that could fit into the entire cosmos, the diameter of which he estimated in stadia to be what we call 2 light years.
- Mathematics – Cards: 52! = 80,658,175,170,943,878,571,660,636,856,403,766,975,289,505,440,883,277,824,000,000,000,000 (≈8.07×1067) – the number of ways to order the cards in a 52-card deck.
- Mathematics: 1,808,422,353,177,349,564,546,512,035,512,530,001,279,481,259,854,248,860,454,348,989,451,026,887 (≈1.81×1072) – The largest known prime factor found by ECM factorization as of 2010[update].
- Mathematics: There are 282,870,942,277,741,856,536,180,333,107,150,328,293,127,731,985,672,134,721,536,000,000,000,000,000 (≈2.83×1074) possible permutations for the Professor's Cube (5×5×5 Rubik's Cube).
- Cryptography: 2256 = 115,792,089,237,316,195,423,570,985,008,687,907,853,269,984,665,640,564,039,457,584,007,913,129,639,936 (≈1.15792089×1077), the total number of different possible keys in the AES 256-bit key space (symmetric cipher).
- Cosmology: Various sources estimate the total number of fundamental particles in the observable universe to be within the range of 1080 to 1085. However, these estimates are generally regarded as guesswork. (Compare the Eddington number, the estimated total number of protons in the observable universe.)
- Computing: 9.999 999×1096 is equal to the largest value that can be represented in the IEEE decimal32 floating-point format.
(10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; 100033; short scale: ten duotrigintillion; long scale: ten thousand sexdecillion, or ten sexdecillard)
- Mathematics: There are 157 152 858 401 024 063 281 013 959 519 483 771 508 510 790 313 968 742 344 694 684 829 502 629 887 168 573 442 107 637 760 000 000 000 000 000 000 000 000 (≈1.57×10116) distinguishable permutations of the V-Cube 6 (6x6x6 Rubik's Cube).
- Chess: Shannon number, 10120, an estimation of the game-tree complexity of chess.
- Physics: 10120, the orders of magnitude of the vacuum catastrophe, the observed values of the quantum vacuum versus the values calculated by Quantum Field Theory.
- Physics: 8×10120, ratio of the mass-energy in the observable universe to the energy of a photon with a wavelength the size of the observable universe.
- History – Religion: Asaṃkhyeya is a Buddhist name for the number 10140. It is listed in the Avatamsaka Sutra and metaphorically means "innumerable" in the Sanskrit language of ancient India.
- Xiangqi: 10150, an estimation of the game-tree complexity of xiangqi.
- Mathematics: There are 19 500 551 183 731 307 835 329 126 754 019 748 794 904 992 692 043 434 567 152 132 912 323 232 706 135 469 180 065 278 712 755 853 360 682 328 551 719 137 311 299 993 600 000 000 000 000 000 000 000 000 000 000 000 (≈1.95 ×10160) distinguishable permutations of the V-Cube 7 (7x7x7 Rubik's Cube).
- Go: There are 208 168 199 381 979 984 699 478 633 344 862 770 286 522 453 884 530 548 425 639 456 820 927 419 612 738 015 378 525 648 451 698 519 643 907 259 916 015 628 128 546 089 888 314 427 129 715 319 317 557 736 620 397 247 064 840 935 (≈2.08 ×10170) legal positions in the game of Go. See Go and mathematics.
- Board games: 3.457×10181, number of ways to arrange the tiles in English Scrabble on a standard 15-by-15 Scrabble board.
- Physics: 10186, approximate number of Planck volumes in the observable universe.
- Physics: 7×10245, approximate number of Planck units that have ever existed in the observable universe.
- Computing: 1.797 693 134 862 315 807×10308 is approximately equal to the largest value that can be represented in the IEEE double precision floating-point format.
- Go: 10365, an estimation of the game-tree complexity in the game of Go.
- Computing: (10 – 10−15)×10384 is equal to the largest value that can be represented in the IEEE decimal64 floating-point format.
- Mathematics: There are 66.909 260 871×101083 distinguishable permutations of the world's largest Rubik's cube (17x17x17).
- Computing: 1.189 731 495 357 231 765 05×104932 is approximately equal to the largest value that can be represented in the IEEE 80-bit x86 extended precision floating-point format.
- Computing: 1.189 731 495 357 231 765 085 759 326 628 007 0×104932 is approximately equal to the largest value that can be represented in the IEEE quadruple precision floating-point format.
- Computing: (10 – 10−33)×106144 is equal to the largest value that can be represented in the IEEE decimal128 floating-point format.
- Computing: 1010,000 − 1 is equal to the largest value that can be represented in Windows Phone's calculator.
- Mathematics: 26384405 + 44052638 is a 15,071-digit Leyland prime; the largest which has been proven as of 2010[update].
- Mathematics: 3,756,801,695,685 × 2666,669 ± 1 are 200,700-digit twin primes; the largest known as of December 2011[update].
- Mathematics: 18,543,637,900,515 × 2666,667 − 1 is a 200,701-digit Sophie Germain prime; the largest known as of April 2012[update].
- Mathematics: approximately 7.76 · 10206,544 cattle in the smallest herd which satisfies the conditions of the Archimedes' cattle problem.
- Mathematics: 10290,253 - 2 × 10145,126 + 1 is a 290,253-digit palindromic prime, the largest known as of April 2012[update].
- Mathematics: 1,098,133# – 1 is a 476,311-digit primorial prime; the largest known as of March 2012[update].
- Mathematics: 150,209! + 1 is a 712,355-digit factorial prime; the largest known as of August 2013[update].
- Mathematics – Literature: Jorge Luis Borges' Library of Babel contains at least 251,312,000 ≈ 1.956 × 101,834,097 books (this is a lower bound).
- Mathematics: 475,856524,288 + 1 is a 2,976,633-digit Generalized Fermat prime, the largest known as of December 2012[update].
- Mathematics: 19,249 × 213,018,586 + 1 is a 3,918,990-digit Proth prime, the largest known Proth prime and non-Mersenne prime as of 2010[update].
- Mathematics: 274,207,281 − 1 is a 22,338,618-digit Mersenne prime; the largest known prime of any kind as of 2016[update].
- Mathematics: 274,207,280 × (274,207,281 − 1) is a 44,677,235-digit perfect number, the largest known as of 2016.
- Mathematics – History: 1080,000,000,000,000,000, largest named number in Archimedes' Sand Reckoner.
- Mathematics: 10googol (), a googolplex.
Larger than 1010100
- Cosmology: The highest estimated time for the Big Freeze to occur is about in 2x1010120 years.
- Mathematics–Literature: The number of different ways in which the books in Jorge Luis Borges' Library of Babel can be arranged is , the factorial of the number of books in the Library of Babel.
- Cosmology: The estimated number of years for quantum fluctuations and tunnelling to generate a new Big Bang is estimated to be .
- Cosmology: In chaotic inflation theory, proposed by physicist Andrei Linde, our universe is one of many other universes with different physical constants that originated as part of our local section of the multiverse, owing to a vacuum that had not decayed to its ground state. According to Linde and Vanchurin, the total number of these universes is about .
- Mathematics: , order of magnitude of an upper bound that occurred in a proof of Skewes (this was later estimated to be closer to 1.397 × 10316).
- Mathematics: , a number in the googol family called a googolplexplex, googolplexian, or googolduplex. 1 followed by a googolplex zeros, or 10googolplex
- Mathematics: , order of magnitude of another upper bound in a proof of Skewes.
- Mathematics: Moser's number "2 in a mega-gon" is approximately equal to 10↑↑↑...↑↑↑10, where there are 10↑↑257 arrows, the last four digits are ...1056.
- Mathematics: Graham's number, the last ten digits of which are ...24641 95387. Arises as an upper bound solution to a problem in Ramsey theory. Representation in powers of 10 would be impractical (the number of 10's in the power tower would far exceed the number of particles in the observable universe).
- Mathematics: TREE(3): appears in relation to a theorem on trees in graph theory. Representation of the number is difficult, but one weak lower bound is AA(187196)(1), where A(n) is a version of the Ackermann function.
- Mathematics: SSCG(3): appears in relation to the Robertson–Seymour theorem. Known to be greater than both TREE(3) and TREE(TREE(…TREE(3)…)) (the TREE function nested TREE(3) times with TREE(3) at the bottom).
- Conway chained arrow notation
- Encyclopedic size comparisons on Wikipedia
- Fast-growing hierarchy
- Large numbers
- List of numbers
- Mathematical constant
- Names of large numbers
- Names of small numbers
- Planck units
- Power of 10
- Kittel, Charles and Herbert Kroemer (1980). Thermal Physics (2nd ed.). W. H. Freeman Company. p. 53. ISBN 0-7167-1088-9.
- There are around 130,000 letters and 199,749 total characters in Hamlet; 26 letters ×2 for capitalization, 12 for punctuation characters = 64, 64199749 ≈ 10360,783.
- www.BridgeHands.com, Sales,. "Probabilities Miscellaneous: Bridge Odds".
- P. L. Walraven and H. J. Lebeek. "Foveal Sensitivity of the Human Eye in the Near Infrared". J. Opt. Soc. Am. 53, 765–766 (1963).
- Mason, W S; Seal, G; Summers, J (1980-12-01). "Virus of Pekin ducks with structural and biological relatedness to human hepatitis B virus.". Journal of Virology. 36 (3): 829–836. ISSN 0022-538X. PMC . PMID 7463557.
- "Homo sapiens - Ensembl genome browser 87". www.ensembl.org. Retrieved 2017-01-28.
- "Most Pi places memorised".
- "The On-Line Encyclopedia of Integer Sequences® (OEIS®)".
- Plouffe's Inverter
- Christof Baron (2015). "Facebook users worldwide 2016 | Statista". Statista. statista.com.
- "Earth microbes on the moon". Science@Nasa. 1 September 1998. Retrieved 2 November 2010.
- "there was, to our knowledge, no actual, direct estimate of numbers of cells or of neurons in the entire human brain to be cited until 2009. A reasonable approximation was provided by Williams and Herrup (1988), from the compilation of partial numbers in the literature. These authors estimated the number of neurons in the human brain at about 85 billion [...] With more recent estimates of 21–26 billion neurons in the cerebral cortex (Pelvig et al., 2008 ) and 101 billion neurons in the cerebellum (Andersen et al., 1992 ), however, the total number of neurons in the human brain would increase to over 120 billion neurons." Herculano-Houzel, Suzana. "The human brain in numbers: a linearly scaled-up primate brain". Front. Hum. Neurosci. 3. doi:10.3389/neuro.09.031.2009. PMC . PMID 19915731.
- Kapitsa, Sergei P (1996). "The phenomenological theory of world population growth". Physics-Uspekhi. 39 (1): 57–71. (citing the range of 80 to 150 billion); see world population.
- Elizabeth Howell, How Many Stars Are in the Milky Way?, Space.com, 21 May 2014 (citing estimates from 100 to 400 billion).
- "While estimates among different experts vary, an acceptable range is between 100 billion and 200 billion galaxies, Mario Livio, an astrophysicist at the Space Telescope Science Institute in Baltimore, told Space.com." Elizabeth Howell,, How Many Galaxies Are There?, Space.com, 1 April 1, 2014.
- Xavier Gourdon (October 2004). "Computation of zeros of the Zeta function". Retrieved 2 November 2010.
- Alexander J. Yee & Shigeru Kondo (28 Dec 2013). "12.1 Trillion Digits of Pi". Retrieved 17 Feb 2014.
- Koch, Christof. Biophysics of computation: information processing in single neurons. Oxford university press, 2004.
- Savage, D. C. (1977). "Microbial Ecology of the Gastrointestinal Tract". Annual Review of Microbiology. 31: 107–33. doi:10.1146/annurev.mi.31.100177.000543. PMID 334036.
- Berg, R. (1996). "The indigenous gastrointestinal microflora". Trends in Microbiology. 4 (11): 430–5. doi:10.1016/0966-842X(96)10057-3. PMID 8950812.
- Bert Holldobler and E.O. Wilson The Superorganism: The Beauty, Elegance, and Strangeness of Insect Societies New York:2009 W.W. Norton Page 5
- "60th Birthday of Microelectronics Industry". Semiconductor Industry Association. 13 December 2007. Retrieved 2 November 2010.
- Sequence A131646 in The On-Line Encyclopedia of Integer Sequences
- "Smithsonian Encyclopedia: Number of Insects". Prepared by the Department of Systematic Biology, Entomology Section, National Museum of Natural History, in cooperation with Public Inquiry Services, Smithsonian Institution. Accessed 27 December 2016. Facts about numbers of insects. Puts the number of individual insects on Earth at about 10 quintillion (1019).
- Ivan Moscovich, 1000 playthinks: puzzles, paradoxes, illusions & games, Workman Pub., 2001 ISBN 0-7611-1826-8.
- "Scores of Zimbabwe farms 'seized'". BBC. 23 February 2009. Retrieved 14 March 2009.
- "To see the Universe in a Grain of Taranaki Sand".
- "Intel predicts 1,200 quintillion transistors in the world by 2015".
- "How Many Transistors Have Ever Shipped? - Forbes". Retrieved 1 September 2015.
- "Sudoku enumeration".
- "Star count: ANU astronomer makes best yet". The Australian National University. 17 July 2003. Archived from the original on July 24, 2005. Retrieved 2 November 2010.
- "Astronomers count the stars". BBC News. July 22, 2003. Retrieved 2006-07-18. "trillions-of-earths-could-be-orbiting-300-sextillion-stars" van Dokkum, Pieter G.; Charlie Conroy (2010). "A substantial population of low-mass stars in luminous elliptical galaxies". Nature. 468 (7326): 940–942. arXiv: . Bibcode:2010Natur.468..940V. doi:10.1038/nature09578. PMID 21124316. "How many stars?"; see mass of the observable universe
- "Questions and Answers - How many atoms are in the human body?".
- William B. Whitman; David C. Coleman; William J. Wiebe (1998). "Prokaryotes: The unseen majority". Proceedings of the National Academy of Sciences of the United States of America. 95 (12): 6578–6583. doi:10.1073/pnas.95.12.6578. PMC . PMID 9618454.
- (sequence A070177 in the OEIS)
- (sequence A035064 in the OEIS)
- John Tromp (2010). "John's Chess Playground".
- Planck Collaboration (2015). "Planck 2015 results. XIII. Cosmological parameters (See Table 4 on page 31 of pfd).". arXiv: .
- Paul Zimmermann, "50 largest factors found by ECM".
- Matthew Champion, "Re: How many atoms make up the universe?", 1998
- WMAP- Content of the Universe. Map.gsfc.nasa.gov (2010-04-16). Retrieved on 2011-05-01.
- "Names of large and small numbers". bmanolov.free.fr. Miscellaneous pages by Borislav Manolov.
- "Richard Eldridge".
- Chris Caldwell, The Top Twenty: Elliptic Curve Primality Proof at The Prime Pages.
- Chris Caldwell, The Top Twenty: Twin Primes at The Prime Pages.
- Chris Caldwell, The Top Twenty: Sophie Germain (p) at The Prime Pages.
- Chris Caldwell, The Top Twenty: Palindrome at The Prime Pages.
- PrimeGrid's Primorial Prime Search
- Chris Caldwell, The Top Twenty: Factorial primes at The Prime Pages.
- From the third paragraph of the story: "Each book contains 410 pages; each page, 40 lines; each line, about 80 black letters." That makes 410 x 40 x 80 = 1,312,000 characters. The fifth paragraph tells us that "there are 25 orthographic symbols" including spaces and punctuation. The magnitude of the resulting number is found by taking logarithms. However, this calculation only gives a lower bound on the number of books as it does not take into account variations in the titles – the narrator does not specify a limit on the number of characters on the spine. For further discussion of this, see Bloch, William Goldbloom. The Unimaginable Mathematics of Borges' Library of Babel. Oxford University Press: Oxford, 2008.
- Chris Caldwell, The Top Twenty: Generalized Fermat at The Prime Pages.
- Chris Caldwell, The Top Twenty: Proth at The Prime Pages.
- Chris Caldwell, The Top Twenty: Largest Known Primes at The Prime Pages.
- Chris Caldwell, Mersenne Primes: History, Theorems and Lists at The Prime Pages.
- Zyga, Lisa "Physicists Calculate Number of Parallel Universes", PhysOrg, 16 October 2009.