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for questions about sequences and series, e.g. convergence, closed form expressions, etc. Note that there is a different tag for spectral sequences, and also note that MathOverflow is not for homework. Please consider consulting the online encyclopedia for integer sequences, if you are trying to identify a given sequence that you have found in your research.

20 votes
Accepted

Infinite series and sum of two squares

Expanding on my comments: $a(n)$ is congruent mod 5 to the number of two-square representations $n = r^2 + s^2$ (allowing each of the integers $r,s$ to be positive, negative, or zero). Thus if $n$ has …
Noam D. Elkies's user avatar
12 votes

Probability of winning game whereby $T+1$ heads in a row of a coin flip is required to win w...

The probability of not winning is $$ \prod_{T=1}^\infty \left(1 - \frac1{2^T} \right) = \frac12 \frac34 \frac78 \frac{15}{16} \cdots = 0.28878809508660 \ldots ; $$ that's a well-known constant (equal …
Noam D. Elkies's user avatar
4 votes
Accepted

2D lattice sum with numerator

The $n=4$ sum is accessible as follows. Expand $(j+k)^4$; by symmetry the odd terms $4j^3k$ and $4jk^3$ cancel out so we need only sum $(j^4 + 6j^2k^2 + k^4) / (j^2+k^2)^4$. You say you already know …
Noam D. Elkies's user avatar
13 votes

In search of an alternative proof of a series expansion for $\log 2$

Write the $n$-th term, $(-1)^{n-1} \!\left/ \bigl(n {2n \choose n} 2^n\bigr) \right.$, as the definite integral $$ \frac14 \int_0^1 \left(-\,\frac{x-x^2}{2} \right)^{n-1} dx $$ using the formula for t …
Noam D. Elkies's user avatar
49 votes

Calculation of a series

This is the special case $q=3$ of a formula $$ \qquad\qquad \sum_{n=1}^\infty \frac{2^n}{q^{2^{n-1}}+1} = \frac{2}{q-1} \qquad\qquad(*) $$ which holds for all $q$ such that the sum converges, i.e. suc …
Noam D. Elkies's user avatar
5 votes
Accepted

Approximation of a square with an irrational arithmetic progression

This holds for all $\alpha \in \bf R$. If $\alpha \in \bf Q$ it's easy, so we may assume $\alpha$ irrational. Divide by $\alpha$ to get $$ |\alpha^{-1} k^2 - n| < \alpha^{-1} \epsilon. $$ So, we wan …
Noam D. Elkies's user avatar
8 votes
Accepted

Express $\int_0^{\pi/2}\{ \operatorname{gd}^{-1}(x)\}dx$ as series of special functions, wit...

The integral is twice Catalan's constant $$ G = L(1,\chi_4) = 1 - \frac1{3^2} + \frac1{5^2} - \frac1{7^2} + \frac1{9^2} - + \cdots. $$ This constant can be computed efficiently to high precision, even …
Noam D. Elkies's user avatar
8 votes

Asymptotic behavior of a certain trigonometric partial sum

The desired inequality should be true iff $$ c < c_0 := (r - \sqrt{r^2-1})^2 \quad\ \text{where} \quad\ r = \frac{|a|}{2b} $$ (NB the hypotheses $b>0$ and $a < -2b$ imply $r>1$, so $0 < c_0 < 1$). Num …
Noam D. Elkies's user avatar
6 votes
Accepted

Approximate the following series on the euclidean grid

You're surely right that there cannot be a "closed form" for such a series; but it can still be approximated to any desired precision. The defining sum $$ x = x(a) = \sum_{i=0}^\infty \sum_{j=0}^\in …
Noam D. Elkies's user avatar
23 votes
Accepted

No Tonelli or Fubini

Since there's a "number theory" tag, I suggest the quasimodular form $E_2(\tau)$, defined for $\tau$ in the upper half-plane as a multiple of $\sum_{m\in\bf Z} {\sum_{n\in\bf Z}}' (m\tau+n)^{-2}$ whe …
5 votes

Is there a way to express an power law decay as a series of exponentials?

Yes, even a single exponential, because $a b^x$ is the same as $c e^{kx}$ with $a=c$ and $b=e^k$. But "power law" usually means a multiple of $x^{-r}$, not $b^x$. That can't be written as a sum of e …
Noam D. Elkies's user avatar
14 votes
Accepted

Vanishing of certain periodic series: A question related to $L(1 , \chi) \neq 0$.

Not necessarily. The first counterexample might be $q=14$ and $f(n)=1, -1, -1, -1, -1, 1, 0, -1, 1, 1, 1, 1, -1, 0$ for $n=1,2,3,\ldots,14$.
Noam D. Elkies's user avatar
6 votes

On the continuity of $\sum_{n=1}^{\infty} \sin(nx) / n^\alpha$

For small $x>0$ we can write $$ f(x) = x^{\alpha-1} \cdot x \sum_{n=1}^\infty \frac{\sin nx}{(nx)^\alpha}, $$ which is $x^{\alpha-1}$ times a Riemann sum for $$ I_\alpha := \int_0^\infty \sin u \frac{ …
Noam D. Elkies's user avatar
37 votes
Accepted

The function $\sum_{0}^{\infty} x^n/n^n$

[Edited to outline the end of the argument that $f(-M) \rightarrow 0$ (and to correct a few typos etc. while I'm at it)] Yes, $F(x) \rightarrow 0$ from below as $x \rightarrow -\infty$. The convergen …
Noam D. Elkies's user avatar
5 votes

random hyperharmonic series

The case $p=2$ is treated briefly in the final section of the cited Schmuland paper, which gives a picture of the distribution. The observations in the paper's first few sections adapt to arbitrary $ …
Noam D. Elkies's user avatar

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