OFFSET
1,2
COMMENTS
Inverse Moebius transform ofA034444:Sum_{d|n} 2^ Omega (d), where Omega (n) =A001221(n) is the number of distinct primes dividing n.
Number of elements in the set {(x,y): x|n, y|n, gcd(x,y)=1}.
Number of elements in the set {(x,y): lcm(x,y)=n}.
Also gives total number of positive integral solutions (x,y), order being taken into account, to the optical or parallel resistor equation 1/x + 1/y = 1/n. Indeed, writing the latter as X*Y=N, with X=x-n, Y=y-n, N=n^2, the one-to-one correspondence between solutions (X, Y) and (x, y) is obvious, so that clearly, the solution pairs (x, y) are tau(N)=tau(n^2) in number. -Lekraj Beedassy,May 31 2002
Number of ordered pairs of positive integers (a,c) such that n^2 - ac = 0. Therefore number of quadratic equations of the form ax^2 + 2nx + c = 0 where a,n,c are positive integers and each equation has two equal (rational) roots, -n/a. (If a and c are positive integers, but, instead, the coefficient of x is odd, it is impossible for the equation to have equal roots.) -Rick L. Shepherd,Jun 19 2005
Problem A1 on the 21st Putnam competition in 1960 (see John Scholes link) asked for the number of pairs of positive integers (x,y) such that xy/(x+y) = n: the answer is a(n); for n = 4, the a(4) = 5 solutions (x,y) are (5,20), (6,12), (8,8), (12,6), (20,5). -Bernard Schott,Feb 12 2023
Numbers k such that a(k)/d(k) is an integer are inA217584and the corresponding quotients are inA339055.-Bernard Schott,Feb 15 2023
REFERENCES
A. M. Gleason et al., The William Lowell Putnam Mathematical Competitions, Problems & Solutions:1938-1960 Soln. to Prob. 1 1960, p. 516, MAA, 1980.
Ross Honsberger, More Mathematical Morsels, Morsel 43, pp. 232-3, DMA No. 10 MAA, 1991.
Loren C. Larson, Problem-Solving Through Problems, Prob. 3.3.7, p. 102, Springer 1983.
Alfred S. Posamentier and Charles T. Salkind, Challenging Problems in Algebra, Prob. 9-9 pp. 143 Dover NY, 1988.
D. O. Shklarsky et al., The USSR Olympiad Problem Book, Soln. to Prob. 123, pp. 28, 217-8, Dover NY.
Wacław Sierpiński, Elementary Theory of Numbers, pp. 71-2, Elsevier, North Holland, 1988.
Charles W. Trigg, Mathematical Quickies, Question 194, pp. 53, 168, Dover, 1985.
LINKS
Enrique Pérez Herrero,Table of n, a(n) for n = 1..10000
Ovidiu Bagdasar,On Some Functions Involving the lcm and gcd of Integer Tuples.
Umberto Cerruti,Percorsi tra i numeri(in Italian), pages 3-4.
Daniele A. Gewurz and Francesca Merola,Sequences realized as Parker vectors of oligomorphic permutation groups,J. Integer Seq., Vol. 6 (2003), Article 03.1.6.
John Scholes,Problem A1 of 21st Putnam Competition 1960,2002. [Wayback Machine link]
Wacław Sierpiński,Elementary Theory of Numbers,Warszawa 1964.
FORMULA
Multiplicative with a(p^e) = 2e+1. -Vladeta Jovovic,Jul 23 2001
Also a(n) = Sum_{d|n} (tau(d)*moebius(n/d)^2), Dirichlet convolution ofA000005andA008966.-Benoit Cloitre,Sep 08 2002
Dirichlet g.f.: (zeta(s))^3/zeta(2s). -R. J. Mathar,Feb 11 2011
a(n) = Sum_{d|n} 2^ Omega (d). Inverse Mobius transform ofA034444.-Enrique Pérez Herrero,Apr 14 2012
G.f.: Sum_{k>=1} 2^ Omega (k)*x^k/(1 - x^k). -Ilya Gutkovskiy,Mar 10 2018
Sum_{k=1..n} a(k) ~ n*(6/Pi^2)*(log(n)^2/2 + log(n)*(3*gamma - 1) + 1 - 3*gamma + 3*gamma^2 - 3*gamma_1 + (2 - 6*gamma - 2*log(n))*zeta'(2)/zeta(2) + (2*zeta'(2)/zeta(2))^2 - 2*zeta''(2)/zeta(2)), where gamma is Euler's constant (A001620) and gamma_1 is the first Stieltjes constant (A082633). -Amiram Eldar,Jan 26 2023
MATHEMATICA
A048691[n_]:=DivisorSigma[0, n^2] (*Enrique Pérez Herrero,May 30 2010 *)
DivisorSigma[0, Range[80]^2] (*Harvey P. Dale,Apr 08 2015 *)
PROG
(PARI)A048691(n)=prod(i=1, #n=factor(n)[, 2], n[i]*2+1) /* or, of course, a(n)=numdiv(n^2) */ \\M. F. Hasler,Dec 30 2007
(MuPAD) numlib::tau (n^2)$ n=1..90 //Zerinvary Lajos,May 13 2008
(Haskell)
a048691 = product. map (a005408. fromIntegral). a124010_row
--Reinhard Zumkeller,Jul 12 2012
(PARI) for(n=1, 100, print1(direuler(p=2, n, (1 - X^2)/(1 - X)^3)[n], "," )) \\Vaclav Kotesovec,Aug 21 2021
CROSSREFS
KEYWORD
nonn,easy,mult
AUTHOR
EXTENSIONS
Additional comments fromVladeta Jovovic,Apr 29 2001
STATUS
approved