15 (fifteen) is the natural number following 14 and preceding 16.

Mathematics

thumb|M = 15

thumb|The 15 perfect matchings of K<sub>6</sub>

thumb|15 as the difference of two positive squares (in orange).

15 is:

  • The eighth composite number and the sixth semiprime and the first odd and fourth discrete semiprime; its proper divisors are , , and , so the first of the form (3.q), where q is a higher prime.
  • a deficient number, a lucky number, a Bell number (i.e., the number of partitions for a set of size 4),
  • the first number to be polygonal in 3 ways: it is the 5th triangular number, a hexagonal number, and pentadecagonal number.
  • a centered tetrahedral number.
  • the smallest number that can be factorized using Shor's quantum algorithm.
  • the magic constant of the unique order-3 normal magic square.
  • the number of supersingular primes.
  • the smallest positive number that can be expressed as the difference of two positive squares in more than one way: <math>4^2-1^2</math> or <math>8^2-7^2</math> (see image).

Furthermore,

  • 15's prime factors, (3 and 5), form the first twin-prime pair.
  • The first 15 superabundant numbers are the same as the first 15 colossally abundant numbers.
  • In decimal, 15 contains the digits 1 and 5 and is the result of adding together the integers from 1 to 5 (1 + 2 + 3 + 4 + 5 = 15). The only other number with this property (in decimal) is 27.
  • There are 15 truncatable primes that are both right-truncatable and left-truncatable:

:2, 3, 5, 7, 23, 37, 53, 73, 313, 317, 373, 797, 3137, 3797, 739397

  • There are 15 perfect matchings of the complete graph K<sub>6</sub> and 15 rooted binary trees with four labeled leaves, both of these being among the types of objects counted by double factorials.
  • If a positive definite quadratic form with integer matrix represents all positive integers up to 15, then it represents all positive integers via the 15 and 290 theorems.
  • 15 is the product of distinct Fermat primes, 3 and 5; hence, a regular pentadecagon is constructible with a compass and unmarked straightedge, and <math>\cos \frac {\pi}{15}</math> is expressible in terms of square roots.
  • There are 15 monohedral convex pentagonal tilings, with eight being edge-to-edge.
  • There are 15 regular and semiregular tilings when infinite (improper) apeirogonal forms are counted: three are regular (with one self-dual), eight are semiregular (with one chiral), and four are apeirogonal (from a total of 8, in-which 4 are duplicates).
  • Full icosahedral symmetry contains 15 mirror planes (2-fold axes). Specifically, the symmetry order for both the regular icosahedron and regular dodecahedron (which is made of regular pentagons) is 120: equal to sum of the first 15 integers, and the factorial of 5, wherein the sum of the first 5 integers itself is 15. Expressed mathematically:
  • : <math>\sum_{i=1}^{15}i = 120 </math>, while <math>\sum_{i=1}^{5}i = 15 </math>, and <math>5! = 120</math>.

thumb|right|185px|[[Seashells from the mollusk Donax variabilis have 15 coloring pattern phenotypes.]]

Religion

Sunnism

The Hanbali Sunni madhab states that the age of fifteen of a solar or lunar calendar is when one's taklif (obligation or responsibility) begins and is the stage whereby one has his deeds recorded.

Judaism

  • In the Hebrew numbering system, the number 15 is not written according to the usual method, with the letters that represent "10" and "5" (י-ה, yodh and heh), because those spell out one of the Jewish names of God. Instead, the date is written with the letters representing "9" and "6" (ט-ו, teth and vav).

References

Further reading

  • Wells, D. The Penguin Dictionary of Curious and Interesting Numbers London: Penguin Group. (1987): 91–93
  • – discussing hexadecimals
  • – discussing the Celtic number as used in Lincolnshire