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Search: id:A143899
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| A143899 |
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Triangle read by rows: T(n,k)=number of simple graphs on n labeled nodes with k edges containing at least one cycle subgraph, n>=3, 3<=k<=C(n,2). |
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+0
2
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| 1, 4, 15, 6, 1, 10, 85, 252, 210, 120, 45, 10, 1, 20, 285, 1707, 5005, 6435, 6435, 5005, 3003, 1365, 455, 105, 15, 1, 35, 735, 6972, 37457, 116280, 203490, 293930, 352716, 352716, 293930, 203490, 116280, 54264, 20349, 5985, 1330, 210, 21, 1, 56, 1610
(list; graph; listen)
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OFFSET
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0,2
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FORMULA
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T(n,k) = A084546(n,k)-A138464(n,k).
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EXAMPLE
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T(4,3) = 4, because 4 simple graphs on 4 labeled nodes with 3 edges contain a cycle subgraph:
..1-2...1-2...1.2...1.2..
..|/.....\|...|\...../|..
..3.4...3.4...3-4...3-4..
Triangle begins:
1
4 15 6 1
10 85 252 210 120 45 10 1
20 285 1707 5005 6435 6435 5005 3003 1365 455 105 15 1
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MAPLE
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B:= proc(n) option remember; if n=0 then 0 else B(n-1) +n^(n-1) *x^n/n! fi end: BB:= proc(n) option remember; expand (B(n) -B(n)^2/2) end: f:= proc(k) option remember; if k=0 then 1 else unapply (f(k-1)(x) +x^k/k!, x) fi end: A:= proc(n, k) option remember; series(f(k)(BB(n)), x, n+1) end: aa:= (n, k)-> coeff (A(n, k), x, n) *n!: b:= (n, k)-> if k>=n then 0 else aa(n, n-k) -aa(n, n-k-1) fi: T:= (n, k)-> product (n*(n-1)/2-j, j=0..k-1)/k! -b(n, k): seq (seq (T(n, k), k=3..n*(n-1)/2), n=3..8);
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CROSSREFS
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Row sums give A143900. Cf. A084546, A138464, A007318.
Sequence in context: A127910 A128235 A024547 this_sequence A154068 A126601 A095331
Adjacent sequences: A143896 A143897 A143898 this_sequence A143900 A143901 A143902
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KEYWORD
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nonn,tabf
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AUTHOR
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Alois P. Heinz (heinz(AT)hs-heilbronn.de), Sep 04 2008
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