Friendly number
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In number theory, friendly numbers are two or more natural numbers with a common abundancy index, the ratio between the sum of divisors of a number and the number itself. Two numbers with the same "abundancy" form a friendly pair; n numbers with the same "abundancy" form a friendly n-tuple.
Being mutually friendly is an equivalence relation, and thus induces a partition of the positive naturals into clubs (equivalence classes) of mutually "friendly numbers".
A number that is not part of any friendly pair is called solitary.
The "abundancy" index of n is the rational number σ(n) / n, in which σ denotes the sum of divisors function. A number n is a "friendly number" if there exists m ≠ n such that σ(m) / m = σ(n) / n. "Abundancy" is not the same as abundance, which is defined as σ(n) − 2n.
"Abundancy" may also be expressed as where denotes a divisor function with equal to the sum of the k-th powers of the divisors of n.
The numbers 1 through 5 are all solitary. The smallest "friendly number" is 6, forming for example, the "friendly" pair 6 and 28 with "abundancy" σ(6) / 6 = (1+2+3+6) / 6 = 2, the same as σ(28) / 28 = (1+2+4+7+14+28) / 28 = 2. The shared value 2 is an integer in this case but not in many other cases. Numbers with "abundancy" 2 are also known as perfect numbers. There are several unsolved problems related to the "friendly numbers".
In spite of the similarity in name, there is no specific relationship between the friendly numbers and the amicable numbers or the sociable numbers, although the definitions of the latter two also involve the divisor function.
Examples[edit]
As another example, 30 and 140 form a friendly pair, because 30 and 140 have the same "abundancy":
The numbers 2480, 6200 and 40640 are also members of this club, as they each have an "abundancy" equal to 12/5.
For an example of odd numbers being friendly, consider 135 and 819 ("abundancy" 16/9). There are also cases of even being "friendly" to odd, such as 42 and 544635 ("abundancy" 16/7). The odd "friend" may be less than the even one, as in 84729645 and 155315394 ("abundancy" 896/351).
A square number can be friendly, for instance both 693479556 (the square of 26334) and 8640 have "abundancy" 127/36 (this example is accredited to Dean Hickerson).
Status for small n[edit]
Blue numbers are proved friendly (sequence A074902 in the OEIS), darkred numbers are proved solitary (sequence A095739 in the OEIS), numbers n such that n and are coprime (sequence A014567 in the OEIS) are not coloured darkred here, though they are known to be solitary. Other numbers have unknown status and are highlighted yellow.
n | n | n | n | |||||||||||
1 | 1 | 1 | 37 | 38 | 38/37 | 73 | 74 | 74/73 | 109 | 110 | 110/109 | |||
2 | 3 | 3/2 | 38 | 60 | 30/19 | 74 | 114 | 57/37 | 110 | 216 | 108/55 | |||
3 | 4 | 4/3 | 39 | 56 | 56/39 | 75 | 124 | 124/75 | 111 | 152 | 152/111 | |||
4 | 7 | 7/4 | 40 | 90 | 9/4 | 76 | 140 | 35/19 | 112 | 248 | 31/14 | |||
5 | 6 | 6/5 | 41 | 42 | 42/41 | 77 | 96 | 96/77 | 113 | 114 | 114/113 | |||
6 | 12 | 2 | 42 | 96 | 16/7 | 78 | 168 | 28/13 | 114 | 240 | 40/19 | |||
7 | 8 | 8/7 | 43 | 44 | 44/43 | 79 | 80 | 80/79 | 115 | 144 | 144/115 | |||
8 | 15 | 15/8 | 44 | 84 | 21/11 | 80 | 186 | 93/40 | 116 | 210 | 105/58 | |||
9 | 13 | 13/9 | 45 | 78 | 26/15 | 81 | 121 | 121/81 | 117 | 182 | 14/9 | |||
10 | 18 | 9/5 | 46 | 72 | 36/23 | 82 | 126 | 63/41 | 118 | 180 | 90/59 | |||
11 | 12 | 12/11 | 47 | 48 | 48/47 | 83 | 84 | 84/83 | 119 | 144 | 144/119 | |||
12 | 28 | 7/3 | 48 | 124 | 31/12 | 84 | 224 | 8/3 | 120 | 360 | 3 | |||
13 | 14 | 14/13 | 49 | 57 | 57/49 | 85 | 108 | 108/85 | 121 | 133 | 133/121 | |||
14 | 24 | 12/7 | 50 | 93 | 93/50 | 86 | 132 | 66/43 | 122 | 186 | 93/61 | |||
15 | 24 | 8/5 | 51 | 72 | 24/17 | 87 | 120 | 40/29 | 123 | 168 | 56/41 | |||
16 | 31 | 31/16 | 52 | 98 | 49/26 | 88 | 180 | 45/22 | 124 | 224 | 56/31 | |||
17 | 18 | 18/17 | 53 | 54 | 54/53 | 89 | 90 | 90/89 | 125 | 156 | 156/125 | |||
18 | 39 | 13/6 | 54 | 120 | 20/9 | 90 | 234 | 13/5 | 126 | 312 | 52/21 | |||
19 | 20 | 20/19 | 55 | 72 | 72/55 | 91 | 112 | 16/13 | 127 | 128 | 128/127 | |||
20 | 42 | 21/10 | 56 | 120 | 15/7 | 92 | 168 | 42/23 | 128 | 255 | 255/128 | |||
21 | 32 | 32/21 | 57 | 80 | 80/57 | 93 | 128 | 128/93 | 129 | 176 | 176/129 | |||
22 | 36 | 18/11 | 58 | 90 | 45/29 | 94 | 144 | 72/47 | 130 | 252 | 126/65 | |||
23 | 24 | 24/23 | 59 | 60 | 60/59 | 95 | 120 | 24/19 | 131 | 132 | 132/131 | |||
24 | 60 | 5/2 | 60 | 168 | 14/5 | 96 | 252 | 21/8 | 132 | 336 | 28/11 | |||
25 | 31 | 31/25 | 61 | 62 | 62/61 | 97 | 98 | 98/97 | 133 | 160 | 160/133 | |||
26 | 42 | 21/13 | 62 | 96 | 48/31 | 98 | 171 | 171/98 | 134 | 204 | 102/67 | |||
27 | 40 | 40/27 | 63 | 104 | 104/63 | 99 | 156 | 52/33 | 135 | 240 | 16/9 | |||
28 | 56 | 2 | 64 | 127 | 127/64 | 100 | 217 | 217/100 | 136 | 270 | 135/68 | |||
29 | 30 | 30/29 | 65 | 84 | 84/65 | 101 | 102 | 102/101 | 137 | 138 | 138/137 | |||
30 | 72 | 12/5 | 66 | 144 | 24/11 | 102 | 216 | 36/17 | 138 | 288 | 48/23 | |||
31 | 32 | 32/31 | 67 | 68 | 68/67 | 103 | 104 | 104/103 | 139 | 140 | 140/139 | |||
32 | 63 | 63/32 | 68 | 126 | 63/34 | 104 | 210 | 105/52 | 140 | 336 | 12/5 | |||
33 | 48 | 16/11 | 69 | 96 | 32/23 | 105 | 192 | 64/35 | 141 | 192 | 64/47 | |||
34 | 54 | 27/17 | 70 | 144 | 72/35 | 106 | 162 | 81/53 | 142 | 216 | 108/71 | |||
35 | 48 | 48/35 | 71 | 72 | 72/71 | 107 | 108 | 108/107 | 143 | 168 | 168/143 | |||
36 | 91 | 91/36 | 72 | 195 | 65/24 | 108 | 280 | 70/27 | 144 | 403 | 403/144 |
Solitary numbers[edit]
A number that belongs to a singleton club, because no other number is "friendly" with it, is a solitary number. All prime numbers are known to be solitary, as are powers of prime numbers. More generally, if the numbers n and σ(n) are coprime – meaning that the greatest common divisor of these numbers is 1, so that σ(n)/n is an irreducible fraction – then the number n is solitary (sequence A014567 in the OEIS). For a prime number p we have σ(p) = p + 1, which is co-prime with p.
No general method is known for determining whether a number is "friendly" or solitary. The smallest number whose classification is unknown is 10; it is conjectured to be solitary. If it is not, its smallest friend is at least .^{[1]}^{[2]} Small numbers with a relatively large smallest friend do exist: for instance, 24 is "friendly", with its smallest friend 91,963,648.^{[1]}^{[2]}
Large clubs[edit]
It is an open problem whether there are infinitely large clubs of mutually "friendly" numbers. The perfect numbers form a club, and it is conjectured that there are infinitely many perfect numbers (at least as many as there are Mersenne primes), but no proof is known. As of December 2018^{[update]}, 51 perfect numbers are known, the largest of which has more than 49 million digits in decimal notation. There are clubs with more known members: in particular, those formed by multiply perfect numbers, which are numbers whose "abundancy" is an integer. As of early 2013, the club of "friendly" numbers with "abundancy" equal to 9 has 2094 known members.^{[3]} Although some are known to be quite large, clubs of multiply perfect numbers (excluding the perfect numbers themselves) are conjectured to be finite.
Notes[edit]
- ^ ^{a} ^{b} Cemra, Jason. "10 Solitary Check". Github/CemraJC/Solidarity.
- ^ ^{a} ^{b} OEIS sequence A074902
- ^ Flammenkamp, Achim. "The Multiply Perfect Numbers Page". Retrieved 2008-04-20.