login
The OEIS is supported by the many generous donors to the OEIS Foundation.

 

Logo
Hints
(Greetings from The On-Line Encyclopedia of Integer Sequences!)
A022344 Allan Wechsler's "J determinant" sequence. 4

%I #30 Sep 08 2022 08:44:46

%S 1,5,4,9,16,11,19,11,20,31,19,31,45,29,44,25,41,59,36,55,29,49,71,41,

%T 64,89,55,81,44,71,100,59,89,121,76,109,61,95,131,79,116,61,99,139,80,

%U 121,164,101,145,79,124,171,101,149,76,125,176,99,151,205

%N Allan Wechsler's "J determinant" sequence.

%C From _Kenneth J Ramsey_, Jan 06 2007: (Start)

%C "a(n) = the characteristic value of the row T(n,i) of the Wythoff array A035513 which is the absolute value of T(n,i)^2 - T(n,i-1)*T(n,i+1). Only the number 5 or prime factors ending in 1 or 9 form the squarefree portion of a(n). All other factors of a(n) appear only as squares.

%C "Moreover, the squarefree portion (less the factor 5) squared is the characteristic value of the Fibonacci sequence whose bijection relates to c term of the Horadam "Fibonacci Number Triples" Amer. Math. Monthly 68(1961) 751-753. That paper showed that if F(0), F(1), F(2), F(3) are 4 sequential numbers in a row of the Wythoff array, then P = (2F(1)*F(2),F(0)*F(1),2F(1)*F(2) + F(0)^2) is a Pythagorean triple (a,b,c) i.e. a^2 + b^2 = c^2.

%C "If i varies and c(n,2i-1) = F(n,i)^2 + 2F(n,i+1)*F(n,i+2) and C(n,2i) is set to equal C(n,2i+1)-C(n,2i-1) then, the sequence F(x,i) = C(n,i)/G, where G is the greatest common divisor of the adjacent terms C(n,i), is a Fibonacci sequence having the characteristic value which is the square of the squarefree portion of a(n) except without the factor of 5.

%C "For example the Lucas sequence or the second row of the Wythoff array has the characteristic value of A(2) = 5 and the C(n,i) terms are each 5 times the sequential terms 34,89,233,... which is a bijection of the terms in the 1st row of the Wythoff array which row has the characteristic value of 1. This is so even though adjacent terms of the Lucas sequence are coprime." (End)

%C Conjecture: Every pair of Fibonacci sequences, F1 and F2, appear in rows n and m of Wythoff's Array, respectively and have respective characteristics a(n) and a(m). Also, there is a third Fibonacci sequence F3, defined by F3(i) = F1(i) * F2(j+1) - F1(i+1)*F2(j) where j is held constant. The sequence F3 appears in row p of Wythoff's array and has the characteristic a(p) = a(n)*a(m). - _Kenneth J Ramsey_, Feb 11 2007

%C a(n) = |T(n,i)^2 - T(n,i-2)*T(n,i+2)| for all i > 2, where T = Wythoff array. Indeed, if k > 0, then |T(n,i)^2 - T(n,j-k)*T(n,j+k)| = (F(k)^2)*A022344(n) for j > k. That is, if m is in A022344, then 4*m, 9*m, 25*m, 64*m, ... are also in A022344. - _Clark Kimberling_, Jul 15 2016

%D _Allan C. Wechsler_, posting to math-fun mailing list Dec 04 1996.

%H Michael De Vlieger, <a href="/A022344/b022344.txt">Table of n, a(n) for n = 0..10000</a>

%H A. F. Horadam, <a href="http://www.jstor.org/stable/2311978">Fibonacci Number Triples</a>, The American Mathematical Monthly, Vol. 68, No. 8 (Oct., 1961), pp. 751-753.

%F a(n) = floor((n+1)*tau)^2 - n*floor((n+1)*tau) - n^2.

%p Digits := 50: t := evalf((1+sqrt(5))/2): f := n->floor( n*t)^2-(n-1)*floor(n*t)-(n-1)^2:

%t Table[#^2 - n # - n^2 &[Floor[(n + 1) GoldenRatio]], {n, 0, 51}] (* _Michael De Vlieger_, Jun 30 2016 *)

%o (Magma) [Floor((n+1)*((1+Sqrt(5))/2))^2-n*Floor((n+1)*(1+Sqrt(5))/2)-n^2: n in [0..60]]; // _Vincenzo Librandi_, Jul 01 2016

%Y Cf. A035513, A127561, A275068.

%K nonn

%O 0,2

%A _N. J. A. Sloane_.

Lookup | Welcome | Wiki | Register | Music | Plot 2 | Demos | Index | Browse | More | WebCam
Contribute new seq. or comment | Format | Style Sheet | Transforms | Superseeker | Recents
The OEIS Community | Maintained by The OEIS Foundation Inc.

License Agreements, Terms of Use, Privacy Policy. .

Last modified March 19 03:33 EDT 2024. Contains 370952 sequences. (Running on oeis4.)