Difference between revisions of "Number of divisors"
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$\tau$ is a [[multiplicative arithmetic function]] and is equal to the number of points with natural coordinates on the hyperbola $xy = n$. The average value of $\tau(n)$ is given by Dirichlet's asymptotic formula (cf. [[Divisor problems]]). | $\tau$ is a [[multiplicative arithmetic function]] and is equal to the number of points with natural coordinates on the hyperbola $xy = n$. The average value of $\tau(n)$ is given by Dirichlet's asymptotic formula (cf. [[Divisor problems]]). | ||
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The [[Average order of an arithmetic function|average value]] of the number of divisors was obtained by P. Dirichlet in 1849, in the form | The [[Average order of an arithmetic function|average value]] of the number of divisors was obtained by P. Dirichlet in 1849, in the form | ||
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\sum_{n \le x} \tau(n) = x \log x + (2 \gamma - 1)x + O(\sqrt x) \ . | \sum_{n \le x} \tau(n) = x \log x + (2 \gamma - 1)x + O(\sqrt x) \ . | ||
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+ | The function $\tau_k(n)$, which is the number of solutions of the equation $n = x_1\cdots x_k$ in natural numbers $x_1,\ldots,x_k$, is a generalization of the function $\tau$. | ||
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====References==== | ====References==== |
Latest revision as of 08:15, 4 November 2023
2020 Mathematics Subject Classification: Primary: 11A25 [MSN][ZBL]
of a natural number $n$
The number of natural divisors of the number $n$. This arithmetic function is denoted by $\tau(n)$ or $d(n)$. The following formula holds: $$ \tau(n) = (a_1+1) \cdots (a_k+1) $$ where $$ n = p_1^{a_1} \cdots p_k^{a_k} $$ is the canonical expansion of $n$ into prime power factors. For prime numbers $p$, $\tau(p) = 2$, but there exists an infinite sequence of $n$ for which $$ \tau(n) \ge 2^{1-\epsilon} \frac{\log n}{\log\log n}\,,\ \ \epsilon > 0 \ . $$
On the other hand, for all $\epsilon > 0$, $$ \tau(n) = O(n^\epsilon)\ . $$
$\tau$ is a multiplicative arithmetic function and is equal to the number of points with natural coordinates on the hyperbola $xy = n$. The average value of $\tau(n)$ is given by Dirichlet's asymptotic formula (cf. Divisor problems).
The average value of the number of divisors was obtained by P. Dirichlet in 1849, in the form $$ \sum_{n \le x} \tau(n) = x \log x + (2 \gamma - 1)x + O(\sqrt x) \ . $$
The function $\tau_k(n)$, which is the number of solutions of the equation $n = x_1\cdots x_k$ in natural numbers $x_1,\ldots,x_k$, is a generalization of the function $\tau$.
References
[1] | I.M. Vinogradov, "Elements of number theory" , Dover, reprint (1954) (Translated from Russian) |
[2] | K. Prachar, "Primzahlverteilung" , Springer (1957) |
[a1] | G.H. Hardy, E.M. Wright, "An introduction to the theory of numbers" , Oxford Univ. Press (1979) pp. Chapt. XVI |
Number of divisors. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Number_of_divisors&oldid=54231