142857
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Cardinal | one hundred forty-two thousand eight hundred fifty-seven | |||
Ordinal | 142857th (one hundred forty-two thousand eight hundred fifty-seventh) | |||
Factorization | 33 × 11 × 13 × 37 | |||
Divisors | 1, 3, 9, 11, 13, 27, 33, 37, 39, 99, 111, 117, 143, 297, 333, 351, 407, 429, 481, 999, 1221, 1287, 1443, 3663, 3861, 4329, 5291, 10989, 12987, 15873, 47619, 142857 | |||
Greek numeral | ͵βωνζ´ | |||
Roman numeral | CXLMMDCCCLVII | |||
Binary | 1000101110000010012 | |||
Ternary | 210202220003 | |||
Senary | 30212136 | |||
Octal | 4270118 | |||
Duodecimal | 6A80912 | |||
Hexadecimal | 22E0916 |
142,857 is the natural number following 142,856 and preceding 142,858. It is a Kaprekar number.[1]
142857, the six repeating digits of 1/7 (0.142857), is the best-known cyclic number in base 10.[2][3][4][5] If it is multiplied by 2, 3, 4, 5, or 6, the answer will be a cyclic permutation of itself, and will correspond to the repeating digits of 2/7, 3/7, 4/7, 5/7, or 6/7 respectively.
Calculation
[edit]- 1 × 142,857 = 142,857
- 2 × 142,857 = 285,714
- 3 × 142,857 = 428,571
- 4 × 142,857 = 571,428
- 5 × 142,857 = 714,285
- 6 × 142,857 = 857,142
- 7 × 142,857 = 999,999
If multiplying by an integer greater than 7, there is a simple process to get to a cyclic permutation of 142857. By adding the rightmost six digits (ones through hundred thousands) to the remaining digits and repeating this process until only six digits are left, it will result in a cyclic permutation of 142857:[citation needed]
- 142857 × 8 = 1142856
- 1 + 142856 = 142857
- 142857 × 815 = 116428455
- 116 + 428455 = 428571
- 1428572 = 142857 × 142857 = 20408122449
- 20408 + 122449 = 142857
Multiplying by a multiple of 7 will result in 999999 through this process:
- 142857 × 74 = 342999657
- 342 + 999657 = 999999
If you square the last three digits and subtract the square of the first three digits, you also get back a cyclic permutation of the number.[citation needed]
- 8572 = 734449
- 1422 = 20164
- 734449 − 20164 = 714285
It is the repeating part in the decimal expansion of the rational number 1/7 = 0.142857. Thus, multiples of 1/7 are simply repeated copies of the corresponding multiples of 142857:
Connection to the enneagram
[edit]The 142857 number sequence is used in the enneagram figure, a symbol of the Gurdjieff Work used to explain and visualize the dynamics of the interaction between the two great laws of the Universe (according to G. I. Gurdjieff), the Law of Three and the Law of Seven. The movement of the numbers of 142857 divided by 1/7, 2/7. etc., and the subsequent movement of the enneagram, are portrayed in Gurdjieff's sacred dances known as the movements.[6]
Other properties
[edit]The 142857 number sequence is also found in several decimals in which the denominator has a factor of 7. In the examples below, the numerators are all 1, however there are instances where it does not have to be, such as 2/7 (0.285714).
For example, consider the fractions and equivalent decimal values listed below:
- 1/7 = 0.142857...
- 1/14 = 0.0714285...
- 1/28 = 0.03571428...
- 1/35 = 0.0285714...
- 1/56 = 0.017857142...
- 1/70 = 0.0142857...
The above decimals follow the 142857 rotational sequence. There are fractions in which the denominator has a factor of 7, such as 1/21 and 1/42, that do not follow this sequence and have other values in their decimal digits.
References
[edit]- ^ "Sloane's A006886: Kaprekar numbers". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation. Retrieved 2016-06-03.
- ^ "Cyclic number". The Internet Encyclopedia of Science. Archived from the original on 2007-09-29.
- ^ Ecker, Michael W. (March 1983). "The Alluring Lore of Cyclic Numbers". The Two-Year College Mathematics Journal. 14 (2): 105–109. doi:10.2307/3026586. JSTOR 3026586.
- ^ "Cyclic number". PlanetMath. Archived from the original on 2007-07-14.
- ^ Hogan, Kathryn (August 2005). "Go figure (cyclic numbers)". Australian Doctor. Archived from the original on 2007-12-24.
- ^ Ouspensky, P. D. (1947). "Chapter XVIII". In Search of the Miraculous: Fragments of an Unknown Teaching. London: Routledge.
- Leslie, John (1820). The Philosophy of Arithmetic: Exhibiting a Progressive View of the Theory and Practice of…. Longman, Hurst, Rees, Orme, and Brown. ISBN 1-4020-1546-1.
- Wells, D. (1997). The Penguin Dictionary of Curious and Interesting Numbers (revised ed.). London: Penguin Group. pp. 171–175. ISBN 978-0-140-26149-3.
- Tahan, Malba (1938). The Man Who Counted.