65541
domain: N
Appears in sequences
- Numbers that are the sum of 6 nonzero 8th powers.at n=28A003384
- Numbers n such that n divides the (left) concatenation of all numbers <= n written in base 22 (most significant digit on right and removing all least significant zeros before concatenation).at n=16A029539
- a(n) = 2^(2^n) + 5.at n=4A063486
- a(1) = 11; a(n) = if n == 2 mod 3 then a(n-1)-3, if n == 0 mod 3 then a(n-1)-2, if n == 1 mod 3 then a(n-1)*2.at n=50A085688
- A106486-encodings of combinatorial games with value 2.at n=33A125995
- a(n) = 2^(4^n) + 5.at n=2A130740
- a(1)=1. a(n) = the smallest integer > a(n-1) such that |d(a(n)) - d(a(n-1))| = n-1, where d(m) = the number of positive divisors of m.at n=9A139695
- The positions i where A163355(i) = i, that is, the fixed points of permutation A163355.at n=36A163901
- a(n) = 2^n + 5.at n=16A168614
- Numbers that can be formed using its own digits in order and only addition and fourth power operators.at n=35A195672
- As a binary numeral, the bit 2^(m-1) of a(n) is 1 iff m is a proper divisor of n.at n=50A247146
- Number of length n+2 0..4 arrays with every three consecutive terms having the sum of some two elements equal to twice the third.at n=17A248429
- Numbers a(n) which are the minimum number of moves needed in a variation of the tower of Hanoi with 4 towers and n disks.at n=17A248604
- Decimal representation of the x-axis, from the left edge to the origin, of the n-th stage of growth of the two-dimensional cellular automaton defined by "Rule 774", based on the 5-celled von Neumann neighborhood.at n=16A283912
- Decimal representation of the x-axis, from the left edge to the origin, of the n-th stage of growth of the two-dimensional cellular automaton defined by "Rule 806", based on the 5-celled von Neumann neighborhood.at n=16A284143
- Lexicographically earliest sequence of distinct positive integers with no finite subset summing to a power of 2.at n=24A353889
- Bitmaps of king + rook vs. king checkmate patterns on a standard 8 X 8 board.at n=0A362950
- Bitmaps of king + rook vs. king checkmate patterns on a standard 8 X 8 board.at n=1A362950