Type of prime number
Proof without words that the difference of two consecutive cubes is a centered hexagonal number by arranging n 3 semitransparent balls in a cube and viewing along a space diagonal – colour denotes cube layer and line style denotes hex numberA cuban prime is a prime number that is also a solution to one of two different specific equations involving differences between third powers of two integers x and y .
First series
This is the first of these equations:
p
=
x
3
−
y
3
x
−
y
,
x
=
y
+
1
,
y
>
0
,
{\displaystyle p={\frac {x^{3}-y^{3}}{x-y}},\ x=y+1,\ y>0,}
[ 1] i.e. the difference between two successive cubes. The first few cuban primes from this equation are
7 , 19 , 37 , 61 , 127 , 271, 331, 397, 547, 631, 919, 1657, 1801, 1951, 2269, 2437, 2791, 3169, 3571, 4219, 4447, 5167, 5419, 6211, 7057, 7351, 8269, 9241, 10267, 11719, 12097, 13267, 13669, 16651, 19441, 19927, 22447, 23497, 24571, 25117, 26227 (sequence A002407 OEIS )The formula for a general cuban prime of this kind can be simplified to
3
y
2
+
3
y
+
1
{\displaystyle 3y^{2}+3y+1}
centered hexagonal number ; that is, all of these cuban primes are centered hexagonal.
As of July 2023[update]
y
=
3
3304301
−
1
{\displaystyle y=3^{3304301}-1}
[ 2]
Second series
The second of these equations is:
p
=
x
3
−
y
3
x
−
y
,
x
=
y
+
2
,
y
>
0.
{\displaystyle p={\frac {x^{3}-y^{3}}{x-y}},\ x=y+2,\ y>0.}
[ 3] which simplifies to
3
y
2
+
6
y
+
4
{\displaystyle 3y^{2}+6y+4}
y
=
n
−
1
{\displaystyle y=n-1}
3
n
2
+
1
,
n
>
1
{\displaystyle 3n^{2}+1,\ n>1}
The first few cuban primes of this form are:
13, 109, 193, 433, 769, 1201, 1453, 2029, 3469, 3889, 4801, 10093, 12289, 13873, 18253, 20173, 21169, 22189, 28813, 37633, 43201, 47629, 60493, 63949, 65713, 69313 (sequence A002648 OEIS ) The name "cuban prime" has to do with the role cubes (third powers) play in the equations.[ 4]
See also
Notes
^ Allan Joseph Champneys Cunningham, On quasi-Mersennian numbers, Mess. Math., 41 (1912), 119-146.
^ Caldwell, Prime Pages
^ Cunningham, Binomial Factorisations, Vol. 1, pp. 245-259
^ Caldwell, Chris K. "cuban prime" . PrimePages . University of Tennessee at Martin. Retrieved 2022-10-06 .
References
Caldwell, Dr. Chris K. (ed.), "The Prime Database: 3^4043119 + 3^2021560 + 1" , Prime Pages University of Tennessee at Martin , retrieved July 31, 2023 Phil Carmody, Eric W. Weisstein and Ed Pegg, Jr. "Cuban Prime" . MathWorld {{cite web }}: CS1 maint: multiple names: authors list (link )Cunningham, A. J. C. (1923), Binomial Factorisations , London: F. Hodgson, ASIN B000865B7S Cunningham, A. J. C. (1912), "On Quasi-Mersennian Numbers", Messenger of Mathematics 119– 146
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