A324741
Number of subsets of {1...n} containing no prime indices of the elements.
Original entry on oeis.org
1, 2, 3, 5, 8, 13, 19, 30, 54, 96, 156, 248, 440, 688, 1120, 1864, 3664, 5856, 11232, 16896, 31296, 53952, 91008, 137472, 270528, 516720, 863088, 1710816, 3173856, 4836672, 9329472, 14897376, 29788128, 52256448, 88429248, 166037184, 331648704, 497685888, 829449600
Offset: 0
The a(0) = 1 through a(6) = 19 subsets:
{} {} {} {} {} {} {}
{1} {1} {1} {1} {1} {1}
{2} {2} {2} {2} {2}
{3} {3} {3} {3}
{1,3} {4} {4} {4}
{1,3} {5} {5}
{2,4} {1,3} {6}
{3,4} {1,5} {1,3}
{2,4} {1,5}
{2,5} {2,4}
{3,4} {2,5}
{4,5} {3,4}
{2,4,5} {3,6}
{4,5}
{4,6}
{5,6}
{2,4,5}
{3,4,6}
{4,5,6}
An example for n = 20 is {5,6,7,9,10,12,14,15,16,19,20}, with prime indices:
5: {3}
6: {1,2}
7: {4}
9: {2,2}
10: {1,3}
12: {1,1,2}
14: {1,4}
15: {2,3}
16: {1,1,1,1}
19: {8}
20: {1,1,3}
None of these prime indices {1,2,3,4,8} belong to the subset, as required.
The maximal case is
A324743. The strict integer partition version is
A324751. The integer partition version is
A324756. The Heinz number version is
A324758. An infinite version is
A304360.
Cf.
A000720,
A001462,
A007097,
A076078,
A084422,
A112798,
A276625,
A279861,
A290689,
A290822,
A304360,
A306844.
-
Table[Length[Select[Subsets[Range[n]],Intersection[#,PrimePi/@First/@Join@@FactorInteger/@#]=={}&]],{n,0,10}]
-
pset(n)={my(b=0,f=factor(n)[,1]); sum(i=1, #f, 1<<(primepi(f[i])))}
a(n)={my(p=vector(n,k,pset(k)), d=0); for(i=1, #p, d=bitor(d, p[i]));
((k,b)->if(k>#p, 1, my(t=self()(k+1,b)); if(!bitand(p[k], b), t+=if(bittest(d,k), self()(k+1, b+(1<Andrew Howroyd, Aug 16 2019
A324847
Numbers divisible by at least one of their prime indices.
Original entry on oeis.org
2, 4, 6, 8, 10, 12, 14, 15, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42, 44, 45, 46, 48, 50, 52, 54, 55, 56, 58, 60, 62, 64, 66, 68, 70, 72, 74, 75, 76, 78, 80, 82, 84, 86, 88, 90, 92, 94, 96, 98, 100, 102, 104, 105, 106, 108, 110, 112, 114, 116
Offset: 1
The sequence of terms together with their prime indices begins:
2: {1}
4: {1,1}
6: {1,2}
8: {1,1,1}
10: {1,3}
12: {1,1,2}
14: {1,4}
15: {2,3}
16: {1,1,1,1}
18: {1,2,2}
20: {1,1,3}
22: {1,5}
24: {1,1,1,2}
26: {1,6}
28: {1,1,4}
30: {1,2,3}
32: {1,1,1,1,1}
34: {1,7}
36: {1,1,2,2}
Cf.
A324695,
A324741,
A324743,
A324847,
A324756,
A324758,
A324765,
A324848,
A324849,
A324850,
A324852,
A324853.
-
filter:= proc(n) local F;
F:= map(numtheory:-pi, numtheory:-factorset(n));
ormap(t -> n mod t = 0, F);
end proc:
select(filter, [$1..200]); # Robert Israel, Mar 19 2019
-
Select[Range[100],Or@@Cases[If[#==1,{},FactorInteger[#]],{p_,_}:>Divisible[#,PrimePi[p]]]&]
-
isok(n) = {my(f = factor(n)[,1]); for (k=1, #f, if (!(n % primepi(f[k])), return (1));); return (0);} \\ Michel Marcus, Mar 19 2019
A324765
Number of recursively anti-transitive rooted trees with n nodes.
Original entry on oeis.org
1, 1, 2, 3, 6, 11, 26, 52, 119, 266, 618, 1432, 3402, 8093, 19505, 47228, 115244, 282529, 696388, 1723400
Offset: 1
The a(1) = 1 through a(6) = 11 recursively anti-transitive rooted trees:
o (o) (oo) (ooo) (oooo) (ooooo)
((o)) ((oo)) ((ooo)) ((oooo))
(((o))) (((oo))) (((ooo)))
((o)(o)) ((o)(oo))
(o((o))) (o((oo)))
((((o)))) (oo((o)))
((((oo))))
(((o)(o)))
((o((o))))
(o(((o))))
(((((o)))))
-
nallt[n_]:=Select[Union[Sort/@Join@@(Tuples[nallt/@#]&/@IntegerPartitions[n-1])],Intersection[Union@@#,#]=={}&];
Table[Length[nallt[n]],{n,10}]
A324743
Number of maximal subsets of {1...n} containing no prime indices of the elements.
Original entry on oeis.org
1, 1, 2, 2, 3, 4, 5, 8, 8, 8, 8, 12, 12, 18, 18, 19, 19, 30, 30, 54, 54, 54, 54, 96, 96, 96, 96, 96, 96, 156, 156, 244, 244, 248, 248, 248, 248, 440, 440, 440, 440, 688, 688, 1120, 1120, 1120, 1120, 1864, 1864, 1864, 1864, 1864, 1864, 3664, 3664, 3664, 3664, 3664
Offset: 0
The a(0) = 1 through a(8) = 8 maximal subsets:
{} {1} {1} {2} {1,3} {1,3} {1,3} {1,3,7} {1,3,7}
{2} {1,3} {2,4} {1,5} {1,5} {1,5,7} {1,5,7}
{3,4} {3,4} {2,4,5} {2,4,5} {2,4,5,8}
{2,4,5} {3,4,6} {2,5,7} {2,5,7,8}
{4,5,6} {3,4,6} {3,4,6,8}
{3,6,7} {3,6,7,8}
{4,5,6} {4,5,6,8}
{5,6,7} {5,6,7,8}
An example for n = 15 is {1,5,7,9,13,15}, with prime indices:
1: {}
5: {3}
7: {4}
9: {2,2}
13: {6}
15: {2,3}
None of these prime indices {2,3,4,6} belong to the subset, as required.
The non-maximal case is
A324741. The case for subsets of {2...n} is
A324763.
Cf.
A000720,
A001462,
A007097,
A084422,
A085945,
A112798,
A276625,
A290689,
A290822,
A304360,
A306844,
A320426,
A324764.
-
maxim[s_]:=Complement[s,Last/@Select[Tuples[s,2],UnsameQ@@#&&SubsetQ@@#&]];
Table[Length[maxim[Select[Subsets[Range[n]],Intersection[#,PrimePi/@First/@Join@@FactorInteger/@#]=={}&]]],{n,0,10}]
-
pset(n)={my(b=0, f=factor(n)[, 1]); sum(i=1, #f, 1<<(primepi(f[i])))}
a(n)={my(p=vector(n, k, pset(k)), d=0); for(i=1, #p, d=bitor(d, p[i]));
my(ismax(b)=my(e=0); forstep(k=#p, 1, -1, if(bittest(b,k), e=bitor(e,p[k]), if(!bittest(e,k) && !bitand(p[k], b), return(0)) )); 1);
((k, b)->if(k>#p, ismax(b), my(f=!bitand(p[k], b)); if(!f || bittest(d, k), self()(k+1, b)) + if(f, self()(k+1, b+(1<Andrew Howroyd, Aug 26 2019
A324840
Number of fully recursively anti-transitive rooted trees with n nodes.
Original entry on oeis.org
1, 1, 2, 3, 5, 7, 14, 23, 46, 85, 165, 313, 625, 1225, 2459, 4919, 9928, 20078, 40926, 83592
Offset: 1
The a(1) = 1 through a(7) = 14 fully recursively anti-transitive rooted trees:
o (o) (oo) (ooo) (oooo) (ooooo) (oooooo)
((o)) ((oo)) ((ooo)) ((oooo)) ((ooooo))
(((o))) (((oo))) (((ooo))) (((oooo)))
((o)(o)) ((o)(oo)) ((o)(ooo))
((((o)))) ((((oo)))) ((oo)(oo))
(((o)(o))) ((((ooo))))
(((((o))))) (((o))(oo))
(((o)(oo)))
((o)((oo)))
((o)(o)(o))
(((((oo)))))
((((o)(o))))
(((o))((o)))
((((((o))))))
-
dallt[n_]:=Select[Union[Sort/@Join@@(Tuples[dallt/@#]&/@IntegerPartitions[n-1])],Intersection[Union@@Rest[FixedPointList[Union@@#&,#]],#]=={}&];
Table[Length[dallt[n]],{n,10}]
A324768
Number of fully anti-transitive rooted trees with n nodes.
Original entry on oeis.org
1, 1, 2, 3, 6, 11, 27, 60, 152, 376, 968, 2492, 6549, 17259, 46000, 123214, 332304, 900406, 2451999, 6703925
Offset: 1
The a(1) = 1 through a(6) = 11 rooted trees:
o (o) (oo) (ooo) (oooo) (ooooo)
((o)) ((oo)) ((ooo)) ((oooo))
(((o))) (((oo))) (((ooo)))
((o)(o)) ((o)(oo))
((o(o))) ((o(oo)))
((((o)))) ((oo(o)))
((((oo))))
(((o)(o)))
(((o(o))))
((o((o))))
(((((o)))))
-
rtall[n_]:=Union[Sort/@Join@@(Tuples[rtall/@#]&/@IntegerPartitions[n-1])];
Table[Length[Select[rtall[n],Intersection[Union@@Rest[FixedPointList[Union@@#&,#]],#]=={}&]],{n,10}]
A324742
Number of subsets of {2...n} containing no prime indices of the elements.
Original entry on oeis.org
1, 2, 3, 6, 10, 16, 24, 48, 84, 144, 228, 420, 648, 1080, 1800, 3600, 5760, 11136, 16704, 31104, 53568, 90624, 136896, 269952, 515712, 862080, 1708800, 3171840, 4832640, 9325440, 14890752, 29781504, 52245504, 88418304, 166017024, 331628544, 497645568, 829409280
Offset: 1
The a(1) = 1 through a(6) = 16 subsets:
{} {} {} {} {} {}
{2} {2} {2} {2} {2}
{3} {3} {3} {3}
{4} {4} {4}
{2,4} {5} {5}
{3,4} {2,4} {6}
{2,5} {2,4}
{3,4} {2,5}
{4,5} {3,4}
{2,4,5} {3,6}
{4,5}
{4,6}
{5,6}
{2,4,5}
{3,4,6}
{4,5,6}
An example for n = 20 is {4,5,6,12,17,18,19}, with prime indices:
4: {1,1}
5: {3}
6: {1,2}
12: {1,1,2}
17: {7}
18: {1,2,2}
19: {8}
None of these prime indices {1,2,3,7,8} belong to the set, as required.
The maximal case is
A324763. The version for subsets of {1...n} is
A324741. The strict integer partition version is
A324752. The integer partition version is
A324757. The Heinz number version is
A324761. An infinite version is
A304360.
Cf.
A000720,
A001462,
A007097,
A076078,
A084422,
A085945,
A112798,
A276625,
A290689,
A290822,
A306844,
A324764.
-
Table[Length[Select[Subsets[Range[2,n]],Intersection[#,PrimePi/@First/@Join@@FactorInteger/@#]=={}&]],{n,10}]
-
pset(n)={my(b=0,f=factor(n)[,1]); sum(i=1, #f, 1<<(primepi(f[i])))}
a(n)={my(p=vector(n-1,k,pset(k+1)>>1), d=0); for(i=1, #p, d=bitor(d, p[i]));
((k,b)->if(k>#p, 1, my(t=self()(k+1,b)); if(!bitand(p[k], b), t+=if(bittest(d,k), self()(k+1, b+(1<Andrew Howroyd, Aug 16 2019
A324838
Number of unlabeled rooted trees with n nodes where the branches of no branch of the root form a submultiset of the branches of the root.
Original entry on oeis.org
1, 0, 1, 2, 5, 10, 28, 64, 169, 422, 1108, 2872, 7627, 20202, 54216, 145867, 395288
Offset: 1
The a(1) = 1 through a(6) = 10 rooted trees:
o ((o)) ((oo)) ((ooo)) ((oooo))
(((o))) (((oo))) (((ooo)))
((o)(o)) ((o)(oo))
((o(o))) ((o(oo)))
((((o)))) ((oo(o)))
((((oo))))
(((o)(o)))
(((o(o))))
((o((o))))
(((((o)))))
Cf.
A324694,
A324696,
A324704,
A324738,
A324744,
A324758,
A324759,
A324765,
A324768,
A324771,
A324839,
A324840,
A324844,
A324846.
-
submultQ[cap_,fat_]:=And@@Function[i,Count[fat,i]>=Count[cap,i]]/@Union[List@@cap];
rtall[n_]:=Union[Sort/@Join@@(Tuples[rtall/@#]&/@IntegerPartitions[n-1])];
Table[Length[Select[rtall[n],And@@Table[!submultQ[b,#],{b,#}]&]],{n,10}]
A324763
Number of maximal subsets of {2...n} containing no prime indices of the elements.
Original entry on oeis.org
1, 1, 2, 2, 2, 3, 6, 6, 6, 6, 10, 10, 16, 16, 16, 16, 24, 24, 48, 48, 48, 48, 84, 84, 84, 84, 84, 84, 144, 144, 228, 228, 228, 228, 228, 228, 420, 420, 420, 420, 648, 648, 1080, 1080, 1080, 1080, 1800, 1800, 1800, 1800, 1800, 1800, 3600, 3600, 3600, 3600, 3600
Offset: 1
The a(1) = 1 through a(9) = 6 subsets:
{} {2} {2} {2,4} {3,4} {2,4,5} {2,4,5} {2,4,5,8} {2,4,5,8}
{3} {3,4} {2,4,5} {3,4,6} {2,5,7} {2,5,7,8} {2,5,7,8}
{4,5,6} {3,4,6} {3,4,6,8} {3,4,6,8,9}
{3,6,7} {3,6,7,8} {3,6,7,8,9}
{4,5,6} {4,5,6,8} {4,5,6,8,9}
{5,6,7} {5,6,7,8} {5,6,7,8,9}
The non-maximal version is
A324742.
The version for subsets of {1...n} is
A324741.
-
maxim[s_]:=Complement[s,Last/@Select[Tuples[s,2],UnsameQ@@#&&SubsetQ@@#&]];
Table[Length[maxim[Select[Subsets[Range[2,n]],Intersection[#,PrimePi/@First/@Join@@FactorInteger/@#]=={}&]]],{n,10}]
-
pset(n)={my(b=0, f=factor(n)[, 1]); sum(i=1, #f, 1<<(primepi(f[i])))}
a(n)={my(p=vector(n-1, k, pset(k+1)>>1), d=0); for(i=1, #p, d=bitor(d, p[i]));
my(ismax(b)=my(e=0); forstep(k=#p, 1, -1, if(bittest(b,k), e=bitor(e,p[k]), if(!bittest(e,k) && !bitand(p[k], b), return(0)) )); 1);
((k, b)->if(k>#p, ismax(b), my(f=!bitand(p[k], b)); if(!f || bittest(d, k), self()(k+1, b)) + if(f, self()(k+1, b+(1<Andrew Howroyd, Aug 26 2019
A358453
Number of transitive ordered rooted trees with n nodes.
Original entry on oeis.org
1, 1, 1, 2, 4, 8, 17, 37, 83, 190, 444, 1051, 2518, 6090, 14852
Offset: 1
The a(1) = 1 through a(7) = 17 trees:
o (o) (oo) (ooo) (oooo) (ooooo) (oooooo)
(o(o)) (o(o)o) (o(o)oo) (o(o)ooo)
(o(oo)) (o(oo)o) (o(oo)oo)
(oo(o)) (o(ooo)) (o(ooo)o)
(oo(o)o) (o(oooo))
(oo(oo)) (oo(o)oo)
(ooo(o)) (oo(oo)o)
(o(o)(o)) (oo(ooo))
(ooo(o)o)
(ooo(oo))
(oooo(o))
(o(o)(o)o)
(o(o)(oo))
(o(o)o(o))
(o(oo)(o))
(oo(o)(o))
(o(o)((o)))
A306844 counts anti-transitive rooted trees.
-
aot[n_]:=If[n==1,{{}},Join@@Table[Tuples[aot/@c],{c,Join@@Permutations/@IntegerPartitions[n-1]}]];
Table[Length[Select[aot[n],Function[t,And@@Table[Complement[t[[k]],Take[t,k]]=={},{k,Length[t]}]]]],{n,10}]
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