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9 votes
8 answers
1k views

$n$-th derivative of $\exp\left(-\frac{\lambda(x-\mu)^2}{2\mu^2x}\right)$

Let $\lambda$ and $\mu$ be two positive real numbers and let denote $f$ the function defined as: $$\forall x>0,~f(x):= \exp\left(-\frac{\lambda(x-\mu)^2}{2\mu^2x}\right).$$ I am struggling to find ...
NancyBoy's user avatar
  • 393
4 votes
1 answer
551 views

Is there an explicit, everywhere surjective $f:\mathbb{R}\to\mathbb{R}$ whose graph has zero Hausdorff measure in its dimension?

Suppose $f:\mathbb{R}\to\mathbb{R}$ is Borel. Let $\text{dim}_{\text{H}}(\cdot)$ be the Hausdorff dimension, and $\mathcal{H}^{\text{dim}_{\text{H}}(\cdot)}(\cdot)$ be the Hausdorff measure in its ...
Arbuja's user avatar
  • 63
0 votes
0 answers
100 views

Construct a bi-Lipschitz mapping that maps a cube to a ball which has the same center with the cube

A mapping $f: \mathbb{R}^n\to \mathbb{R}^n$ is said to be $K$-bi-Lipschitz, $K>1$, if \begin{equation*} \dfrac{1}{K}\leqslant \dfrac{|f(x)-f(y)|}{|x-y|}\leqslant K, \end{equation*} for any $x,y\in \...
Javier's user avatar
  • 69
13 votes
0 answers
710 views

Minimizing total variation under constraint

For $p\in[0,1]$, we write $\mathrm{Ber}(p)$ to denote the Bernoulli measure on $\{0,1\}$; that is, $\mathrm{Ber}(p)(0)=1-p$, $\mathrm{Ber}(p)(1)=p$. For $n\in\mathbb{N}$ and $p=(p_1,\ldots,p_n)\in[0,1]...
Aryeh Kontorovich's user avatar
9 votes
1 answer
492 views

Dispersion points of Lipschitz functions

For a function $f: \mathbb R^n \to \mathbb R^m$ with $m < n$, we say that $x \in \mathbb R^n$ is a dispersion point of $f$ if $$\liminf_{y \to x} \frac{|f(y) - f(x)|}{|y - x|} > 0.$$ Question: ...
Nate River's user avatar
  • 6,195
2 votes
0 answers
120 views

On mollifiers acting between $L^2$ and Sobolev spaces

(I'm reposting here this question from MSE as it didn't receive any answer for two weeks.) Consider a sequence of finite lattices in $\mathbb{R}^n$ defined by $$L_k= [-k,k]^n \cap 2^{-k}\cdot \mathbb{...
S.Z.'s user avatar
  • 505
2 votes
1 answer
120 views

Difference between finite partial sums from two divergent series

Fix a sequence $(r_i)_{i\in\mathbb{N}} \subseteq (0, 1)$ such that $\lim_i r_i=0$ and $\sum_{i\in \mathbb{N}} r_i=\infty$. According to the answer in this post, for any $c>0$ there exists $N,M\in\...
Sanae Kochiya's user avatar
0 votes
1 answer
170 views

Summation of binomial coefficients with alternating signs

For a fixed $\alpha > 1$ and integer $n$, I want to provide some bounds or scaling results for the following summations $$S_1(n,\alpha) = \sum_{k = 1}^{n} {n \choose k} (-1)^{k + 1} k / (\alpha k + ...
yfful's user avatar
  • 25
5 votes
0 answers
190 views

Number of discrete Lipschitz functions with given Lipschitz constant

Fix $T, K, N \in \mathbb Z_+$. How many distinct Lipschitz functions $f: \{0, \dots, T\} \to \mathbb Z$ are there with Lipschitz constant $K$, and supremum norm at most $N$ satisfying $f(0) = 0$? In ...
Nate River's user avatar
  • 6,195
8 votes
0 answers
103 views

Sobolev embedding theorems in vector bundles on non-compact manifolds

Let $(M,g)$ be a smooth (not necessarily compact) Riemannian $n$-manifold. It is well-known that dealing with Sobolev spaces in the general non-compact case becomes tricky, since for instance, there ...
G. Blaickner's user avatar
  • 1,429
5 votes
1 answer
279 views

Is there a theorem which provides conditions under which a power series satisfies the reciprocal root sum law?

Kalman - Six ways to sum a series discusses Euler's original proof for the Basel problem $\sum\limits_{n=1}^\infty \frac{1}{n^2}=\frac{\pi^2}{6} $: $$\frac{\sin(\sqrt x)}{\sqrt x} = 1- \frac{x}{3!}+ \...
pie's user avatar
  • 541
6 votes
1 answer
817 views

Is the $L^\infty$ norm of the derivative the same under the Hausdorff and Lebesgue measure?

Note: Here $\mathcal H^k$ denotes the $k$-dimensional Hausdorff measure, and $\|f\|_{L^\infty (\mathcal H^k)}$ denotes the $L^\infty$ norm of a function $f$ with respect to $\mathcal H^k$. Let $\Omega$...
Nate River's user avatar
  • 6,195
1 vote
2 answers
209 views

Approximate simple function $f$ by a sequence of continuous functions on $\mathbb{R}^d$ such that $\|f_n\|_\infty\leq \|f\|_\infty$

Let $f=\sum_{i=1}^n c_i 1_{\Delta_i}$ be a simple function on $\mathbb{R}^d$, where $c_i\in\mathbb{C}$. Then we can find sequnces of continuous functions $\{f_k^{(i)}\}$ for each $i=1,\ldots,n$ such ...
mathlover's user avatar
4 votes
1 answer
217 views

$2$ continuous, commuting functions doesn't always have a common fixed point

The question is as such: If two continuous mappings $f$ and $g$ of a closed interval into itself commute, that is, $f\circ g=g\circ f$, then they do not always have a common fixed point. -- Zorich ...
Yinuo An's user avatar
  • 183
3 votes
0 answers
219 views

Strictly contracting solutions to the Eikonal equation on Riemannian manifolds

Given a Riemannian manifold $M$, we say $f: M \to \mathbb R$ is a strict contraction if $|f(x) - f(y)| < |x - y|$ for all distinct $x, y \in M$. Question: Does there exist, on every complete ...
Nate River's user avatar
  • 6,195
11 votes
1 answer
953 views

Can a differentiable function have everywhere discontinuous derivative?

For $n \geq 2$, let $f: \mathbb R^n \to \mathbb R$ be differentiable. Is it possible that $\nabla f$ is everywhere discontinuous? I believe in dimension $1$, $\nabla f$ has to be continuous on a dense ...
Nate River's user avatar
  • 6,195
15 votes
0 answers
244 views

Natural examples of Borel surjections without right inverse

As discussed in this question, in general a Borel surjection $f:\mathbb{R}\rightarrow\mathbb{R}$ may not have a Borel right inverse, namely a $g$ such that $f\circ g=id$, although there is always a ...
183orbco3's user avatar
  • 623
3 votes
1 answer
176 views

Question about Lebesgue Bochner spaces

Let $T>0$ and $\Omega\subset\mathbb{R}^N$ be a bounded domain. Also $p\in (1,\infty)$ is any number. I know that $u\in L^{p}((0,T);L^p(\Omega))$ and $\nabla u\in L^{p}((0,T);L^p(\Omega))^N$. How ...
Bogdan's user avatar
  • 1,759
2 votes
0 answers
58 views

$L^2$ approximation of delta functions on real algebraic varieties and asymptotic bounds

Let $X$ be a smooth projective variety over $\mathbb{C}$ of dimension $n$. Consider a probability measure $\mu$ on $X(\mathbb{R})$, absolutely continuous with respect to the Lebesgue measure induced ...
Raphael Riviera's user avatar
4 votes
0 answers
140 views

Condition under a function is uniquely identifiable by the supremum values

Let $f(x),g(x)$ be two real-valued functions on $\mathbb{R}$ and $h(x,y)$ be a real-valued function on the plane. We can assume continuity (maybe piecewise differentiability also) of these functions. ...
mukhujje's user avatar
  • 271
4 votes
0 answers
198 views

When a null uncountable set can be image of some increasing function with discontinuities on a dense countable set

Consider the following result: A: Let $f:D \to \mathbb R$ be an increasing function with discontinuities on a dense countable subset of $D$ such that the jump values sum to $\mu(D)$, where $D$ is a ...
Amir's user avatar
  • 303
14 votes
3 answers
2k views

Every function on reals a sum of two surjective real functions?

From this question, and the answer thereof, we can see that every real valued function on reals is a sum of two injective functions. Is the same true if we replace injectivity by surjectivity. For ...
vidyarthi's user avatar
  • 2,089
3 votes
1 answer
175 views

Convergence rate of the sum of squares of inverse distances of random points which become dense in a region

$n$ points $\{X_i\}$ are drawn at random from a uniform distribution over a domain $\Omega\subset \mathbb{R}^m$ with a Lipschitz boundary. $D_n$ is defined as $$D_n = \sqrt{\frac{1}{\sum\limits_{1\le ...
Rajesh D's user avatar
  • 698
7 votes
1 answer
736 views

Should coffee machines be deconcentrated?

We model some region by convex and compact $E\subset \mathbb R^2$. $N\ge 1$ coffee machines are provided for the people living on $E$, of capacities $\alpha_1,\ldots, \alpha_N>0$. Assume the ...
Fawen90's user avatar
  • 1,399
7 votes
1 answer
561 views

How are real numbers defined in elementary recursive arithmetic?

I am currently reading about elementary function arithmetic and Harvey Friedman's grand conjecture. In Number theory and elementary arithmetic, Jeremy Avigad expressed Fermat's last theorem, ...
user avatar
3 votes
1 answer
157 views

How can discrete Fourier transform approximation prove the completeness of complex exponentials in $L^2(T)$?

I have a question about the completeness of complex exponentials in function spaces. For the discrete set $ S = \{1, 2, \ldots, n\} $, it is clear and intuitive that $ e^{2\pi ikx/n} $ for $ k = 0, 1, ...
Zhang Yuhan's user avatar
2 votes
1 answer
117 views

Special density on $L^2$

Let $\Omega\subset\mathbb{R}^N$ be a bounded domain, and $u\in L^2(\Omega)$ with $0\leq u(x)\leq 1$ a.e. on $\Omega$. It is well known that $C^{\infty}_c(\Omega)$ is dense in $L^2(\Omega)$. Because $C^...
Bogdan's user avatar
  • 1,759
0 votes
0 answers
52 views

References on a variant of Geometric Calculus

Geometric algebra and (standard) calculus, when synthesized, give rise to geometric calculus, a very powerful formalism. I have read a bit about fractional calculus and time-scale calculus, both very ...
user avatar
6 votes
1 answer
413 views

Analyticity of $f*g$ with $f$ and $g$ smooth on $\mathbb{R}$ and analytic on $\mathbb{R}^*$

Suppose that we have two real functions $f$ and $g$ both belonging to $\mathcal{C}^\infty(\mathbb{R},\mathbb{R})$ analytic on $\mathbb{R}\setminus\{0\}$ but non-analytic at $x=0$. Is the convolution (...
NancyBoy's user avatar
  • 393
4 votes
1 answer
255 views

Asymptotic behavior and of an integral on a d-dimensional torus

I am trying to evaluate the asymptotic behavior of the following integral as $t \to \infty$: $$ I(t; \mathbf{v}) = \int_{[-\pi, \pi]^d} \frac{\sin(t f(\mathbf{k}))}{\sin(f(\mathbf{k}))} e^{i t \mathbf{...
Ko Hey's user avatar
  • 81
2 votes
0 answers
65 views

Construct a differentiable function whose gradient has a prescribed modulus of continuity

$\newcommand{\bR}{\mathbb{R}}$ Let $\alpha := e^{-(1 + \sqrt{2})}$. We define the following modulus $\psi : \bR_+ \to \bR_+$ of continuity $$ \psi (x) := \begin{cases} 0 &\text{if} \quad x =0 , \\ ...
Akira's user avatar
  • 835
1 vote
1 answer
132 views

Can I find $n$ points on the boundary of an $n$-dimensional ball with certain properties?

My problem is the following: I want to construct $n$ rays all starting at a point $v$ that is not in the $n$-dimensional ball around $0$ such that the following is true: The $n$-dimensional ball is a ...
limes_inferior's user avatar
1 vote
1 answer
58 views

Proving one one condition for the Gaussian mixture model

$\textbf{Question:}$ Consider the following matrix representation for a two-component bivariate Gaussian Mixture Model (GMM): $S = \begin{bmatrix} A & X \\ X' & B \end{bmatrix}$ where $A = \...
Andyale's user avatar
  • 123
3 votes
0 answers
45 views

Small deviation asymptotics for sub-gaussian diffusions in dirichlet spaces

Let $(X,d,\mu)$ be a metric measure space equipped with a strongly local, regular Dirichlet form $(\mathcal{E}, \mathcal{D}(\mathcal{E}))$ on $L^2(X,\mu)$. Assume that the associated heat kernel $p_t(...
Thomas Frenkel's user avatar
6 votes
2 answers
225 views

On a trigonometric inequality by Huygens

The following inequality, ascribed to Huygens, appeared in this post: \begin{equation*} 1-\frac43\,\frac{\sin^3\theta/2}{\theta-\sin\theta} >(1-\cos\theta/2)\Big(\frac35-\frac3{1400}\frac{\...
Iosif Pinelis's user avatar
4 votes
1 answer
144 views

Asymptotic decay rate of an oscillator integral

Question: I want to evaluate the decay estimate of the integral $I^d(t; v) = \int_0^{\sqrt{d}\pi} dr \, r^{d-2} \int_0^\pi \sin(tr) e^{i\sqrt{d}vtr\cos\theta} \sin^{d-2}\theta \, d\theta $ for ...
Ko Hey's user avatar
  • 81
1 vote
0 answers
46 views

Optimal transport and the geometry of singular measures on fractal Sets

Let $K$ be a self-similar fractal set in $\mathbb{R}^n$ with Hausdorff dimension $d < n$, equipped with a self-similar measure $\mu$ supported on $K$. Let $\mathcal{P}(K)$ denote the space of ...
danyerdos's user avatar
10 votes
1 answer
518 views

Inverse function theorem for $W^{2,n}\cap W^{1,\infty}$ functions

Let $n\ge 2$, $f:B_1\subset \mathbb R^n\rightarrow \mathbb R^n$, $f\in W^{2,n}\cap W^{1,\infty}(B_1)$, $\text{det}(Df)>c>0$, where $B_1$ is the unit ball. Can we show that $f$ is a homeomorphism ...
Tian LAN's user avatar
  • 435
6 votes
1 answer
197 views

On elliptic operators on non-compact manifolds

Let $(M,g)$ be a (connected, oriented) Riemannian manifold and $E$ some finite-rank $\mathbb{R}$- or $\mathbb{C}$-vector bundle equipped with some (positive-definite) inner product on the level of (...
G. Blaickner's user avatar
  • 1,429
1 vote
0 answers
42 views

Approximation of the function $f(z)=z^2/|z|$ by $C^1$ immersions

Let $D$ denote the unit disk in $\mathbb C=\mathbb R^2$. We consider the function $f:D\rightarrow\mathbb C $ defined by $$f(z):=\frac{z^2}{|z|}.$$ Then as proved in Global invertibility (p324 Remark 4)...
Tian LAN's user avatar
  • 435
11 votes
2 answers
587 views

Extracting a subsequence common to infinitely many sets from an uncountable collection with uniform positive upper density

Let $\{a_n\},\{b_n\}$ be strictly increasing sequence of positive integers satisfying $a_1<b_1<a_2<b_2<a_3<b_3<\ldots$ and $(b_n-a_n) \to \infty$. Define $I_n:= [a_n,b_n]$, meaning ...
confused's user avatar
  • 271
6 votes
3 answers
747 views

Evaluating the infinite product $\prod_{k\geq 2}(1-\frac{1}{k^3})$

Does anyone know how to evaluate the infinite product $$ \prod_{k = 2}^{\infty} \left( 1 - \frac{1}{k^3} \right)? $$ I know that a generalized quadratic version has a nice closed form $$ \frac{\sin(\...
kodlu's user avatar
  • 10.4k
7 votes
1 answer
290 views

Equivalence of omniscience principles for natural numbers and analytic omniscience principles for Cauchy real numbers

In constructive mathematics, a proposition $P$ is decidable if $P \vee \neg P$, and a proposition is stable if $\neg \neg P \implies P$. We have the following principles of omniscience for the natural ...
Madeleine Birchfield's user avatar
5 votes
2 answers
248 views

Hausdorff dimension of the zero set of $\nabla f$

Let $f: \mathbb R^n \to \mathbb R$ be a Lipschitz function with $\nabla f$ nonzero almost everywhere with respect to Lebesgue measure. What is the supremal Hausdorff dimension of the set on which $f$ ...
Nate River's user avatar
  • 6,195
9 votes
1 answer
845 views

Convergence of sequences formed by orthocenters, incenters, and centroids in repeated triangle constructions

I asked this question on MSE here. Given a scalene triangle $A_1B_1C_1$ , construct a triangle $A_{n+1}B_{n+1}C_{n+1}$ from the triangle $A_nB_nC_n$ where $A_{n+1}$ is the orthocenter of $A_nB_nC_n$, ...
pie's user avatar
  • 541
1 vote
2 answers
231 views

A real root of a cubic equation for a stationary point

Let us consider the quartic polynomial in $x$ \begin{equation} F(x) = (2 a p +2)x^4+ (6a(1-a)p^2+(6-12a)p-6)x^3 + p(2(a-2)(a-1)a p^2 + 3(5a^2-9a+2)p +12a-18)x^2 - p^2 ((a-2)(4a^2 ...
Vladimir's user avatar
  • 371
10 votes
1 answer
668 views

On Pareto functions

The Pareto principle says that the top 20% of wealthy people people hold over 80% of the wealth. Suppose we had a non-negative function on $\mathbb R^n$ that satisfied this principle on every open ...
Nate River's user avatar
  • 6,195
2 votes
2 answers
158 views

Does there exist a continuous field of directions in $\mathbb R^3$ tangent to every sphere?

Does there exist a nonconstant continuous map $v: \mathbb R^3 \to \mathbb S^2$ such that every sphere $S \subset \mathbb R^3$ is tangent to $v(x)$ at some $x \in S$? Bonus: I also suspect that for ...
Nate River's user avatar
  • 6,195
0 votes
0 answers
101 views

A special Hamel basis and a special additive function

On mathstackexchange I recently asked whether for an irrational number $a$ a special Hamel basis of type $\bigcup_{i\in I}\{x_i,y_i,ay_i\}$ exists, where $x_i, y_i$ and $ay_i$ are $\mathbb Q$-...
ray's user avatar
  • 687
0 votes
0 answers
42 views

Is this function $\mathcal{C}^1$ in the global sense?

Denote by $\mathbb{U}$ the complex unit disk. Let $\mathcal{O}$ an nonempty open subset of $\mathbb{R}^n$ $(n\geq 1)$, and $f\in\mathcal{C}^1(\mathcal{O}\times\mathbb{R},\mathbb{U})$ such that for all ...
G. Panel's user avatar
  • 449