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Search: id:A060309
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| A060309 |
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A001067 appears to count the periodic points for a certain map. If so, then this is the sequence of the numbers of orbits of length n. |
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1
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| 1, 0, 0, 0, 0, 115, 0, 452, 4874, 17461, 7062, 19696950, 50610, 242341439, 114877883680, 481832564850, 8919335150, 1461959530725190712, 8116326631140, 13054135924822447372, 72385602091336704890
(list; graph; listen)
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OFFSET
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1,6
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LINKS
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Y. Puri and T. Ward, Arithmetic and growth of periodic orbits, J. Integer Seqs., Vol. 4 (2001), #01.2.1.
T. Ward, Exactly realizable sequences
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FORMULA
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If b(n) is the n-th term of A001067, then a(n)=(1/n)* Sum_{d|n}mu(d)a(n/d)
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EXAMPLE
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a(11) = 7062 because the 11-th term of A001067 is 77683 and the first term is 1, so there should be (77683-1)/11 = 7062 orbits of length 11.
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CROSSREFS
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Cf. A001067, A060171, A060479.
Sequence in context: A108344 A112485 A084877 this_sequence A101111 A131603 A129823
Adjacent sequences: A060306 A060307 A060308 this_sequence A060310 A060311 A060312
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KEYWORD
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nonn
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AUTHOR
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Thomas Ward (t.ward(AT)uea.ac.uk), Apr 10 2001
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