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24 (number)

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← 23 24 25 →
Cardinaltwenty-four
Ordinal24th
(twenty-fourth)
Numeral systemtetravigesimal
Factorization23 × 3
Divisors1, 2, 3, 4, 6, 8, 12, 24
Greek numeralΚΔ´
Roman numeralXXIV
Binary110002
Ternary2203
Senary406
Octal308
Duodecimal2012
Hexadecimal1816

24 (twenty-four) is the natural number following 23 and preceding 25.

The SI prefix for 1024 is yotta (Y), and for 10−24 (i.e., the reciprocal of 1024) yocto (y). These numbers are the largest and smallest number to receive an SI prefix to date.

In mathematics

  • 24 is the factorial of 4 (24 = 4!) and a composite number, being the first number of the form 23q, where q is an odd prime.
  • Since 24 = 4!, it follows that 24 is the number of ways to order 4 distinct items: (1,2,3,4), (1,2,4,3), (1,3,2,4), (1,3,4,2), (1,4,2,3), (1,4,3,2), (2,1,3,4), (2,1,4,3), (2,3,1,4), (2,3,4,1), (2,4,1,3), (2,4,3,1), (3,1,2,4), (3,1,4,2), (3,2,1,4), (3,2,4,1), (3,4,1,2), (3,4,2,1), (4,1,2,3), (4,1,3,2), (4,2,1,3), (4,2,3,1), (4,3,1,2), (4,3,2,1).
  • It is the smallest number with exactly eight divisors: 1, 2, 3, 4, 6, 8, 12, and 24.
  • It is a highly composite number, having more divisors than any smaller number.[1]
  • 24 is a semiperfect number, since adding up all the proper divisors of 24 except 4 and 8 gives 24.[2]
  • Subtracting 1 from any of its divisors (except 1 and 2, but including itself) yields a prime number; 24 is the largest number with this property.
  • There are 10 solutions to the equation φ(x) = 24, namely 35, 39, 45, 52, 56, 70, 72, 78, 84 and 90. This is more than any integer below 24, making 24 a highly totient number.[3]
  • 24 is a nonagonal number.[4]
  • 24 is the sum of the prime twins 11 and 13.
  • 24 is a Harshad number.[5]
  • 24 is a semi-meandric number.
  • The product of any four consecutive numbers is divisible by 24. This is because among any four consecutive numbers there must be two even numbers, one of which is a multiple of four, and there must be a multiple of three.
  • The tesseract has 24 two-dimensional faces (which are all squares).
  • 24 is the only nontrivial solution to the cannonball problem, that is: 12 + 22 + 32 + … + 242 is a perfect square (702). (The trivial case is just 12 = 12.)[6]
  • In 24 dimensions there are 24 even positive definite unimodular lattices, called the Niemeier lattices. One of these is the exceptional Leech lattice which has many surprising properties; due to its existence, the answers to many problems such as the kissing number problem and densest lattice sphere-packing problem are known in 24 dimensions but not in many lower dimensions. The Leech lattice is closely related to the equally nice length-24 binary Golay code and the Steiner system S(5,8,24) and the Mathieu group M24. (One construction of the Leech lattice is possible because 12 + 22 + 32 + ... + 242 = 702.)
  • The modular discriminant Δ(τ) is proportional to the 24th power of the Dedekind eta function η(τ): Δ(τ) = (2π)12η(τ)24.
  • The Barnes–Wall lattice contains 24 lattices.
  • 24 is the only number whose divisors — 1, 2, 3, 4, 6, 8, 12, 24 — are exactly those numbers n for which every invertible element of the commutative ring Z/nZ is a square root of 1. It follows that the multiplicative group of invertible elements (Z/24Z)× = {±1, ±5, ±7, ±11} is isomorphic to the additive group (Z/2Z)3. This fact plays a role in monstrous moonshine.
    It follows that any number n relatively prime to 24 (that is, any number of the form 6K ± 1), and in particular any prime n greater than 3, has the property that n2 – 1 is divisible by 24.
  • The 24-cell, with 24 octahedral cells and 24 vertices, is a self-dual convex regular 4-polytope of rotational symmetry order 576 (equal to 24 squared). It tiles 4-dimensional space in a 24-cell honeycomb, within which twenty-four 24-cells surround a single 24-cell.
    The vertices of the 24-cell honeycomb can be chosen so that in 4-dimensional space, thought of as the ring of quaternions, are precisely the subring generated by the binary tetrahedral group as represented by the set of 24 quaternions . This set of 24 quaternions forms the set of vertices of a single 24-cell, all lying on the sphere S3 of radius one centered as the origin.
  • 24 is the kissing number in 4-dimensional space: the maximum number of unit spheres that can all touch another unit sphere without overlapping. (The centers of 24 such spheres form the vertices of a 24-cell.)
  • 24 is the largest integer that is divisible by all natural numbers no larger than its square root.
  • 24 is the Euler characteristic of a K3 surface
  • 24 is the smallest 5-hemiperfect number
  • 24 is the order of the cyclic group equal to the stable 3-stem in homotopy groups of spheres: πn+3(Sn) = Z/24Z for all n ≥ 5.

In science

In religion

In music

  • There are a total of 24 major and minor keys in Western tonal music, not counting enharmonic equivalents. Therefore, for collections of pieces written in each key, the number of pieces in such a collection; e.g., Chopin's 24 Preludes.

In sports

In other fields

Astronomical clock in Prague

24 is also:

  • The number of bits a computer needs to represent true-color images (for a maximum of 16,777,216 colours). (But greater numbers of bits provide more accurate colors. "TrueColor" is one of many possible representations of colors.)
  • The number of karats representing 100% pure gold.[9]
  • The number of cycles in the Chinese solar year.
  • The number of frames per second at which motion picture film is usually projected.
  • The number of letters in both the modern and classical Greek alphabet.[10] For the latter reason, also the number of chapters or "books" into which Homer's Odyssey and Iliad came to be divided.
  • The number of runes in the Elder Futhark
  • The number of points on a backgammon board.[11]
  • A children's mathematical game involving the use of any of the four standard operations on four numbers on a card to get 24 (see Math 24)
  • The maximum number of Knight Companions in the Order of the Garter
  • The number of the French department Dordogne.
  • Four and twenty is the number of blackbirds baked in a pie in the traditional English nursery rhyme Sing a Song of Sixpence.

References

  1. ^ "Sloane's A002182 : Highly composite numbers". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation. Retrieved 2016-05-31.
  2. ^ "Sloane's A005835 : Pseudoperfect (or semiperfect) numbers". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation. Retrieved 2016-05-31.
  3. ^ "Sloane's A097942 : Highly totient numbers". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation. Retrieved 2016-05-31.
  4. ^ "Sloane's A001106 : 9-gonal (or enneagonal or nonagonal) numbers". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation. Retrieved 2016-05-31.
  5. ^ "Sloane's A005349 : Niven (or Harshad) numbers". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation. Retrieved 2016-05-31.
  6. ^ Weisstein, Eric W. "Cannonball Problem". mathworld.wolfram.com. Retrieved 2020-08-19.
  7. ^ Meija, Juris; Coplen, Tyler B.; Berglund, Michael; Brand, Willi A.; Bièvre, Paul De; Gröning, Manfred; Holden, Norman E.; Irrgeher, Johanna; Loss, Robert D.; Walczyk, Thomas; Prohaska, Thomas (2016-03-01). "Atomic weights of the elements 2013 (IUPAC Technical Report)". Pure and Applied Chemistry. 88 (3): 265–291. doi:10.1515/pac-2015-0305. ISSN 0033-4545.
  8. ^ "Revelation 4:4, New International Version (1984)". Bible.cc. Retrieved 2013-05-03.
  9. ^ "Is 24K gold pure?". Scientific American. Retrieved 2020-08-12.
  10. ^ "Greek alphabet | History, Definition, & Facts". Encyclopedia Britannica. Retrieved 2020-08-12.
  11. ^ "GammonSite - Rules of backgammon". www.gammonsite.com. Retrieved 2020-08-12.