login
A257229
Pentatorial sequence.
1
-1, 0, 1, 2, 7625597484987
OFFSET
-1,4
COMMENTS
Tetration is repeated exponentiation. So for example a[4]4 = a^^4 = a^a^a^a.
Pentation is repeated tetration. So for example a[5]3 = a^^^3 = a^^a^^a.
a[n](-1) = 0 and a[n]0 = 1 for every a and n>3. Let a^^^b be a^^a^^...^^a with a occurring b times.
In general, for any n-th hyperoperation we have:
a[n]b = b+1 for n<1 and a[n]b= a[n-1]a[n](b-1) otherwise.
Or equivalently, a[n]b = b+1 for n<1 and a[1]b = a+b or a[n]b = a[n-1]a...[n-1]a with a occurring b times otherwise.
Define the k-torial of n for natural numbers k and n to be:
-1[k]! = -1 for k>3 or k<1;
0[2]! = 0! = 1;
0[k]! = 0 for k<2 or k>2;
n[k]! = n[k]((n-1)[k]!) otherwise.
The sequence n[k]! for nonpositive k is the sequence of all nonnegative integers. n[1]! are the triangular numbers. n[2]! is the factorial. n[3]! is exponential factorial or expofactorial or exponentorial. n[4]! the tetrational factorial or tetratorial. n[5]! the pentational factorial or pentatorial etc.
This sequence grows so quickly that a(4) cannot fit in the data section. This obviously happens even with many other sequences of the Torial family. Here are some that aren't included in the OEIS:
the tetratorial sequence n[4]! where the terms are: -1, 0, 1, 2, 27, 4[4]27...
Sequences n[k]! for k>6 grow too quickly because only the same first 4 terms are visible;
the operatorial or operational factorial sequence defined as n¡=n[n]! produces the terms 0, 1, 1, 2, 9, 4[4]27...
All of the above sequences have offset -1.
FORMULA
a(n) = n[5]! = n[5]((n-1)[5]!).
EXAMPLE
Define a(-1) = -1;
a(0) = 0^^^(-1) = 0;
a(1) = 1^^^0^^^(-1) = 1;
a(2) = 2^^^1^^^0^^^(-1) = 2;
a(3) = 3^^^2^^^1^^^0^^^(-1) = 3^^3 = 3^3^3 = 7625597484987;
a(4) = 4^^^3^^^2^^^1^^^0^^^(-1) = 4^^^7625597484987, which is too big to include above.
CROSSREFS
Cf. A001477 (n[0]!), A000217 (n[1]!), A000142 (n[2]!), A049384 (n[3]!).
Sequence in context: A077303 A185703 A007352 * A176944 A068138 A309968
KEYWORD
sign,bref
AUTHOR
Natan Arie Consigli, Apr 18 2015
STATUS
approved