In number theory, a pernicious number is a positive integer such that the Hamming weight of its binary representation is prime, that is, there is a prime number of 1s when it is written as a binary number.[1]
Examples
editThe first pernicious number is 3, since 3 = 112 and 1 + 1 = 2, which is a prime. The next pernicious number is 5, since 5 = 1012, followed by 6 (1102), 7 (1112) and 9 (10012).[2] The sequence of pernicious numbers begins
Properties
editNo power of two is a pernicious number. This is trivially true, because powers of two in binary form are represented as a one followed by zeros. So each power of two has a Hamming weight of one, and one is not considered to be a prime.[2] On the other hand, every number of the form with , including every Fermat number, is a pernicious number. This is because the sum of the digits in binary form is 2, which is a prime number.[2]
A Mersenne number has a binary representation consisting of ones, and is pernicious when is prime. Every Mersenne prime is a Mersenne number for prime , and is therefore pernicious. By the Euclid–Euler theorem, the even perfect numbers take the form for a Mersenne prime ; the binary representation of such a number consists of a prime number of ones, followed by zeros. Therefore, every even perfect number is pernicious.[3][4]
Related numbers
edit- Odious numbers are numbers with an odd number of 1s in their binary expansion (OEIS: A000069).
- Evil numbers are numbers with an even number of 1s in their binary expansion (OEIS: A001969).
References
edit- ^ Deza, Elena (2021), Mersenne Numbers And Fermat Numbers, World Scientific, p. 263, ISBN 978-9811230332
- ^ a b c Sloane, N. J. A. (ed.), "Sequence A052294", The On-Line Encyclopedia of Integer Sequences, OEIS Foundation
- ^ Colton, Simon; Dennis, Louise (2002), "The NumbersWithNames Program", Seventh International Sumposium on Artificial Intelligence and Mathematics
- ^ Cai, Tianxin (2022), Perfect Numbers And Fibonacci Sequences, World Scientific, p. 50, ISBN 978-9811244094