Published online by Cambridge University Press: 24 October 2008
In his remarkable memoir ‘On certain arithmetical functions’* Ramanujan considers, among other functions of much interest, the. function τ(n) defined by
This function is important in the theory of the representation of a number as a sum of 24 squares. In fact
where r24 (n) is the number of representations;
where σs(n) is the sum of the 8th powers of the divisors of n, and the sum of those of its odd divisors; and
* Ramanujan, S., ‘On certain arithmetical functions’, Trans. Camb. Phil. Soc., 22 (1916), 159–184.Google Scholar
† Ramanujan, l.c., 179, 184. A function with argument ½n is zero when n is odd.
‡ Mordell, L. J., ‘On Mr Ramanujan“s empirical expansions of modular functions’, Proc. Camb. Phil. Soc., 19 (1920), 117–124 (a paper communicated in 1917).Google Scholar
* Ramanujan, l.c., 168, 171.
† That is to say τ(n)≠o(n5). See Ramanujan, l.c., 171.
‡ Ramanujan, l.c., 175.
* Hardy, G. H. and Littlewood, J. E., ‘Some problems of Diophantine approximation: II: The trigonometrical series associated with the elliptic theta-functions’, Acta Math., 37 (1914), 193–238.CrossRefGoogle Scholar
† 226 et seq.
* The function −6 log (1/λ) − 2πλ becomes negatively infinite when λ → 0 or λ → ∞, and has a maximum when πλ = 3. Here λ > ½.
* The maximnm of u αe −αy occurs for u = α/y, outside the range of integration because c > α.
† Fundamenta nova § 66.