63 (number) explained

63 (sixty-three) is the natural number following 62 and preceding 64.

Mathematics

63 is the sum of the first six powers of 2 (2⁰ + 2¹ + ... 2⁵). It is the eighth highly cototient number,^[1] and the fourth centered octahedral number after 7 and 25.^[2] For five unlabeled elements, there are 63 posets.^[3]

Sixty-three is the seventh square-prime of the form

and the second of the form . It contains a prime aliquot sum of 41, the thirteenth indexed prime; and part of the aliquot sequence (63, 41, 1, 0) within the 41-aliquot tree.

Zsigmondy's theorem states that where

are coprime integers for any integer , there exists a primitive prime divisor that divides and does not divide for any positive integer , except for when , with having no prime divisors, , a power of two, where any odd prime factors of are contained in , which is even;

and for a special case where

with and , which yields .^[4]

63 is a Mersenne number of the form

with an of ,^[5] however this does not yield a Mersenne prime, as 63 is the forty-fourth composite number.^[6] It is the only number in the Mersenne sequence whose prime factors are each factors of at least one previous element of the sequence (3 and 7, respectively the first and second Mersenne primes).^[7] In the list of Mersenne numbers, 63 lies between Mersenne primes 31 and 127, with 127 the thirty-first prime number. The thirty-first odd number, of the simplest form , is 63.^[8] It is also the fourth Woodall number of the form with , with the previous members being 1, 7 and 23 (they add to 31, the third Mersenne prime).^[9]

In the integer positive definite quadratic matrix

representative of all (even and odd) integers,^{[10] [11]} the sum of all nine terms is equal to 63.

63 is the third Delannoy number, which represents the number of pathways in a

grid from a southwest corner to a northeast corner, using only single steps northward, eastward, or northeasterly.^[12]

Finite simple groups

63 holds thirty-six integers that are relatively prime with itself (and up to), equivalently its Euler totient.^[13] In the classification of finite simple groups of Lie type, 63 and 36 are both exponents that figure in the orders of three exceptional groups of Lie type. The orders of these groups are equivalent to the product between the quotient of

(with prime and a positive integer) by the GCD of , and a (in capital pi notation, product over a set of terms):^[14] the order of exceptional Chevalley finite simple group of Lie type, the order of exceptional Chevalley finite simple group of Lie type, the order of one of two exceptional Steinberg groups,

Lie algebra

holds thirty-six positive roots in sixth-dimensional space, while holds sixty-three positive root vectors in the seven-dimensional space (with one hundred and twenty-six total root vectors, twice 63).^[15] The thirty-sixth-largest of thirty-seven total complex reflection groups is , with order where the previous has order ; these are associated, respectively, with and ^[16] Coxeter group (sometimes, the demicube is also included in this family),^[17] that is associated with classical Chevalley Lie algebra via the orthogonal group and its corresponding special orthogonal Lie algebra (by symmetries shared between unordered and ordered Dynkin diagrams). There are also 36 uniform 6-polytopes that are generated from the simplex Coxeter group, when counting self-dual configurations of the regular 6-simplex separately. In similar fashion, is associated with classical Chevalley Lie algebra through the special linear group and its corresponding special linear Lie algebra. , using Miller's rules; fifty-nine of these are generated by the regular icosahedron and four by the regular dodecahedron, inclusive (as zeroth indexed stellations for regular figures).^[18] Though the regular tetrahedron and cube do not produce any stellations, the only stellation of the regular octahedron as a stella octangula is a compound of two self-dual tetrahedra that facets the cube, since it shares its vertex arrangement. Overall, of order 120 contains a total of thirty-one axes of symmetry;^[19] specifically, the lattice that is associated with exceptional Lie algebra } contains symmetries that can be traced back to the regular icosahedron via the icosians.^[20] The icosahedron and dodecahedron can inscribe any of the other three Platonic solids, which are all collectively responsible for generating a maximum of thirty-six polyhedra which are either regular (Platonic), semi-regular (Archimedean), or duals to semi-regular polyhedra containing regular vertex-figures (Catalan), when including four enantiomorphs from two semi-regular snub polyhedra and their duals as well as self-dual forms of the tetrahedron.^[21]

Otherwise, the sum of the divisors of sixty-three,

,^[22] is equal to the constant term that belongs to the principal modular function (McKay–Thompson series) of sporadic group , the second largest such group after the Friendly Giant .^[23] This value is also the value of the minimal faithful dimensional representation of the Tits group ,^[24] the only finite simple group that can categorize as being non-strict of Lie type, or loosely sporadic; that is also twice the faithful dimensional representation of exceptional Lie algebra , in 52 dimensions.

In science

• The atomic number of europium.

Astronomy

• Messier object M63, a magnitude 8.5 galaxy in the constellation Canes Venatici, also known as the Sunflower Galaxy.
• The New General Catalogue object NGC 63, a spiral galaxy in the constellation Pisces
• 63 Ausonia, an approximately 100 kilometer in diameter asteroid in the asteroid belt.

In other fields

Sixty-three is also:

• The code for international direct dial calls to the Philippines
• The hull number of the U.S. Navy's aircraft carrier USS Kitty Hawk (CV-63) and the USS Missouri (BB-63)
• The number of the French department Puy-de-Dôme
• The number of groats in a guinea in British pre-decimal currency
• A card game, popular in Carleton County, New Brunswick
• The Stoner 63, a machine gun
• The number of chromosomes found in the offspring of a donkey and a horse
• Class of '63 was a TV movie starring James Brolin (1973)

In religion

• There are 63 Tractates in the Mishna, the compilation of Jewish Law.
• There are 63 Saints (popularly known as Nayanmars) in South Indian Shaivism, particularly in Tamil Nadu, India.
• There are 63 Salakapurusas (great beings) in Jain cosmology.

References

1. 2023-08-06 .
2. 2022-06-02.
3. 2023-08-06 .
4. Book: Ribenboim, Paulo . Paulo Ribenboim. The Little Book of Big Primes . 2nd . . New York, NY . 2004 . 27 . 10.1007/b97621 . 978-0-387-20169-6 . 53223720 . 117794601 . 1087.11001 .
5. 2023-08-06 .
6. 2023-08-06 .
7. 2023-08-06 .
8. 2023-08-06 .
9. 2016-05-30 .
10. 2023-10-09 .
11. Book: Cohen . Henri . Number Theory Volume I: Tools and Diophantine Equations . Consequences of the Hasse–Minkowski Theorem . . . 239 . 1st . 2007 . 312–314 . 10.1007/978-0-387-49923-9 . 978-0-387-49922-2 . 493636622 . 1119.11001 .
12. 2016-05-30 .
13. 2023-08-06 .
14. Gallian . Joseph A. . Joseph Gallian . The Search for Finite Simple Groups . . 49 . 4 . 1976 . 174 . . Oxfordshire, UK . 10.1080/0025570X.1976.11976571 . 2690115 . 414688 . 125460079 .
15. Book: Carter, Roger W. . Simple groups of Lie type . registration . . 1st . 1972 . 43 . Pure and Applied Mathematics (A Series of Texts and Monographs) . XXXVIII . 978-0471506836 . 609240 . 0248.20015 .
16. Sekiguchi . Jiro . Simple singularity of type E₇ and the complex reflection group ST34 . 2023 . 2311.16629 . math.AG . .
17. Coxeter . H.S.M. . Regular and Semi-Regular Polytopes. III. . 200 . . Berlin . 1988 . 4–7 . 10.1007/BF01161745 . 186237142 . 0633.52006 .
18. Web site: Enumeration of Stellations . Webb . Robert . . 2023-09-21 . https://archive.today/20221126015207/https://www.software3d.com/Enumerate.php . 2022-11-26 .
19. Book: Sarhangi . Reza . Hart . George W. . George W. Hart . Icosahedral Constructions . http://t.archive.bridgesmathart.org/1998/bridges1998-195.pdf . Bridges: Mathematical Connections in Art, Music, and Science . . Winfield, Kansas . 1998 . 196 . 978-0966520101 . 59580549 . 202679388 .
20. Baez . John C. . John C. Baez . From the Icosahedron to E₈ . London Mathematical Society Newsletter . 476 . 18–23 . 2018 . 1712.06436 . 3792329 . 119151549 . 1476.51020 .
21. Har’El . Zvi . Uniform Solution for Uniform Polyhedra . . 47 . 57–110 . . Netherlands . 1993 . 10.1007/BF01263494 . 1230107 . 0784.51020 . 120995279 .

    See Tables 5, 6 and 7 (groups T₁, O₁ and I₁, respectively).

22. 2023-08-06 .
23. 2023-07-31 .

    j_2A(\tau)=T_2A(\tau)+104=

    	1
    	q

    +104+4372q+96256q²+ …

24. Lubeck . Frank . Smallest degrees of representations of exceptional groups of Lie type . . 29 . 5 . 2151 . . Philadelphia, PA . 2001 . 10.1081/AGB-100002175 . 1837968 . 122060727 . 1004.20003 .