Narcissistic number

In recreational number theory, a narcissistic number[1][2] (also known as a pluperfect digital invariant (PPDI),[3] an Armstrong number[4] (after Michael F. Armstrong)[5] or a plus perfect number)[6] is a number that is the sum of its own digits each raised to the power of the number of digits. This definition depends on the base b of the number system used, e.g., b = 10 for the decimal system or b = 2 for the binary system.

Definition

The definition of a narcissistic number relies on the decimal representation n = dkdk-1...d1 of a natural number n, i.e.,

n = dk·10k-1 + dk-1·10k-2 + ... + d2·10 + d1,

with k digits di satisfying 0  di  9. Such a number n is called narcissistic if it satisfies the condition

n = dkk + dk-1k + ... + d2k + d1k.

For example, the 3-digit decimal number 153 is a narcissistic number because 153 = 13 + 53 + 33.

Narcissistic numbers can also be defined with respect to numeral systems with a base b other than b = 10. The base-b representation of a natural number n is defined by

n = dkbk-1 + dk-1bk-2 + ... + d2b + d1,

where the base-b digits di satisfy the condition 0  di  b-1. For example, the (decimal) number 17 is a narcissistic number with respect to the numeral system with base b = 3. Its three base-3 digits are 122, because 17 = 1·32 + 2·3 + 2 , and it satisfies the equation 17 = 13 + 23 + 23.

If the constraint that the power must equal the number of digits is dropped, so that for some m possibly different from k it happens that

n = dkm + dk-1m + ... + d2m + d1m,

then n is called a perfect digital invariant or PDI.[2][7] For example, the decimal number 4150 has four decimal digits and is the sum of the fifth powers of its decimal digits

4150 = 45 + 15 + 55 + 05,

so it is a perfect digital invariant but not a narcissistic number.

In "A Mathematician's Apology", G. H. Hardy wrote:

There are just four numbers, after unity, which are the sums of the cubes of their digits:
.
These are odd facts, very suitable for puzzle columns and likely to amuse amateurs, but there is nothing in them which appeals to the mathematician.

Narcissistic numbers in various bases

The sequence of base 10 narcissistic numbers starts: 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 153, 370, 371, 407, 1634, 8208, 9474, ... (sequence A005188 in the OEIS)

The sequence of base 8 narcissistic numbers starts: 0, 1, 2, 3, 4, 5, 6, 7, 24, 64, 134, 205, 463, 660, 661, ... (sequence A010354 and A010351 in OEIS)

The sequence of base 12 narcissistic numbers starts: 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, , Ɛ, 25, ᘔ5, 577, 668, ᘔ83, ... (sequence A161949 in the OEIS)

The sequence of base 16 narcissistic numbers starts: 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, A, B, C, D, E, F, 156, 173, 208, 248, 285, 4A5, 5B0, 5B1, 60B, 64B, ... (sequence A161953 in the OEIS)

The sequence of base 3 narcissistic numbers starts: 0, 1, 2, 12, 22, 122

The sequence of base 4 narcissistic numbers starts: 0, 1, 2, 3, 130, 131, 203, 223, 313, 332, 1103, 3303 (sequence A010344 and A010343 in OEIS)

In base 2, the only narcissistic numbers are 0 and 1.

The number of narcissistic numbers in a given base is finite, since the maximum possible sum of the kth powers of a k digit number in base b is

and if k is large enough then

in which case no base b narcissistic number can have k or more digits. Setting b equal to 10 shows that the largest narcissistic number in base 10 must be less than 1060.[1]

There are only 88 narcissistic numbers in base 10, of which the largest is

115,132,219,018,763,992,565,095,597,973,971,522,401

with 39 digits.[1]

Clearly, in all bases, all one-digit numbers are narcissistic numbers.

A base b has at least one two-digit narcissistic number if and only if b2 + 1 is not prime, and the number of two-digit narcissistic numbers in base b equals , where is the number of positive divisors of n.

Every base b ≥ 3 that is not a multiple of nine has at least one three-digit narcissistic number. The bases that do not are

2, 72, 90, 108, 153, 270, 423, 450, 531, 558, 630, 648, 738, 1044, 1098, 1125, 1224, 1242, 1287, 1440, 1503, 1566, 1611, 1620, 1800, 1935, ... (sequence A248970 in the OEIS)

Unlike narcissistic numbers, no upper bound can be determined for the size of PDIs in a given base, and it is not currently known whether or not the number of PDIs for an arbitrary base is finite or infinite.[2]

The term "narcissistic number" is sometimes used in a wider sense to mean a number that is equal to any mathematical manipulation of its own digits. With this wider definition narcisstic numbers include:

where di are the digits of n in some base.

References

  1. 1 2 3 Weisstein, Eric W. "Narcissistic Number". MathWorld.
  2. 1 2 3 Perfect and Plus Perfect Digital Invariants by Scott Moore
  3. PPDI (Armstrong) Numbers by Harvey Heinz
  4. Armstrong Numbers by Dik T. Winter
  5. Lionel Deimel’s Web Log
  6. (sequence A005188 in the OEIS)
  7. PDIs by Harvey Heinz
  8. Rose, Colin (2005), Radical Narcissistic Numbers, Journal of Recreational Mathematics, 33(4), pages 250-254.
  • Joseph S. Madachy, Mathematics on Vacation, Thomas Nelson & Sons Ltd. 1966, pages 163-175.
  • Rose, Colin (2005), Radical narcissistic numbers, Journal of Recreational Mathematics, 33(4), 2004-2005, pages 250-254.
  • Perfect Digital Invariants by Walter Schneider
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