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|---|---|---|---|---|
| Cardinal | seven hundred ninety | |||
| Ordinal | 790th (seven hundred ninetieth) | |||
| Factorization | 2 × 5 × 79 | |||
| Greek numeral | ΨϞ´ | |||
| Roman numeral | DCCXC | |||
| Binary | 11000101102 | |||
| Ternary | 10020213 | |||
| Octal | 14268 | |||
| Duodecimal | 55A12 | |||
| Hexadecimal | 31616 | |||
790 (seven hundred [and] ninety) is the natural number following 789 and preceding 791.
790 is:
7 (seven) is the natural number following 6 and preceding 8. It is a prime number, and is often considered lucky in Western culture, and is often seen as highly symbolic.
25 (twenty-five) is the natural number following 24 and preceding 26.
69 (sixty-nine) is the natural number following 68 and preceding 70.
35 (thirty-five) is the natural number following 34 and preceding 36.
62 (sixty-two) is a natural number following 61 and preceding 63.
91 (ninety-one) is the natural number following 90 and preceding 92.
94 (ninety-four) is the natural number following 93 and preceding 95.
95 (ninety-five) is the natural number following 94 and preceding 96.
106 is the natural number following 105 and preceding 107.
496 is the natural number following 495 and preceding 497.
In mathematics, an aliquot sequence is a sequence of positive integers in which each term is the sum of the proper divisors of the previous term. If the sequence reaches the number 1, it ends, since the sum of the proper divisors of 1 is 0.
196 is the natural number following 195 and preceding 197.
248 is the natural number following 247 and preceding 249.
786 is the natural number following 785 and preceding 787.
230 is the natural number following 229 and preceding 231.
245 is the natural number following 244 and preceding 246.
246 is the natural number following 245 and preceding 247.
249 is the natural number following 248 and preceding 250.
276 is the natural number following 275 and preceding 277.
In number theory, the aliquot sums(n) of a positive integer n is the sum of all proper divisors of n, that is, all divisors of n other than n itself. It can be used to characterize the prime numbers, perfect numbers, deficient numbers, abundant numbers, and untouchable numbers, and to define the aliquot sequence of a number.