Persistence of a number

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In mathematics, the persistence of a number is a term used to describe the number of times one must apply a given operation to an integer before reaching a fixed point, i.e. until further application does not change the number any more.

Usually, this refers to the additive or multiplicative persistence of an integer, which is how often one has to replace the number by the sum or product of its digits until one reaches a single digit. Because the numbers are broken down into their digits, the additive or multiplicative persistence depends on the radix. In the remaining article, we will assume a radix of 10.

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[edit] Examples

The additive persistence of 2718 is 2: first we find that 2+7+1+8=18, and then that 1+8=9. The multiplicative persistence of 39 is 3 (assuming a radix of 10), because it takes three steps to reduce 39 to a single digit: 39 → 27 → 14 → 4. Also, 39 is the smallest number of multiplicative persistence 3.

[edit] Smallest numbers of a given persistence

For a radix of 10, there is thought to be no number with a multiplicative persistence > 11. The smallest numbers with persistence 0 through 11 are: 0, 10, 25, 39, 77, 679, 6788, 68889, 2677889, 26888999, 3778888999, 277777788888899 (by cleverly using the specific properties of numbers in this sequence, it can be calculated in a fraction of a second).

The additive persistence of a number, however, can become arbitrarily large (proof: For a given number n, the persistence of the number consisting of n repetitions of the digit 1 is 1 higher than that of n). The smallest numbers of additive persistence 0 through 4 are: 0, 10, 19, 199, 19999999999999999999999. The next number in the sequence (the smallest number of additive persistence 5) is given by the digit 1 followed by 2222222222222222222222 times the digit 9.

[edit] See also

The single-digit final state reached in the process of calculating an integers's additive persistence is its digital root. Put another way, a number's additive persistence is the measure of how many steps it takes us to arrive at its digital root.

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