Skip to main content

All Questions

Filter by
Sorted by
Tagged with
11 votes
2 answers
2k views

Multi-dimensional moment problem

Let $\mu$ be a measure on $\def\r{\mathbb{R}}\r^n$, $1\le n \le \infty$. Given a (finite) multi-index $\bar{i} = (i_1, i_2, \ldots)$, one can define the moment $$ m_{\bar i} = \int x_i^{i_1} x_2^{i_2}...
Kevin Walker's user avatar
  • 12.8k
0 votes
1 answer
1k views

surjective function from non-measurable sets

let $V$ be the vitali set and let $g:V\to\mathbb R$ be a surjective function. then the fuction $f:\mathbb R\to\mathbb R$ such that $f(x)=g([x])$ will be a function that is surjective in any interval ...
alberto.bosia's user avatar
16 votes
3 answers
4k views

Which functions have all derivatives everywhere positive?

Consider the class of functions from $\mathbb R$ to $\mathbb R$, such that the function is positive everywhere and its $n$th derivative is positive everywhere for all $n$. The only examples I can ...
Will Sawin's user avatar
  • 148k
1 vote
4 answers
959 views

Does complete monotonicity of f imply log-concavity of f?

Let f be a completely monotonic function with $f(0)=1$, that is, $ f:[0, \infty) \rightarrow (0,1] $. My question is: Is f log concave, that is, is $(logf)''<0$ or equivalently $ f f''< f'^2 $....
J M del Castillo's user avatar
1 vote
2 answers
1k views

Is there a periodic function without minimum period such that all the possible periods are irrationals? [closed]

Let $f:\mathbb R\to\mathbb R$ be a periodic function. We say $f$ is without minimum period if, $\forall t$ such that $f(x+t)=f(x)\forall x$, there is a $t'$ such that $0<t'<t$ and $f(x+t')=f(x)\...
alberto.bosia's user avatar
12 votes
5 answers
2k views

analysis over non-Archimedean ordered fields

Can anyone suggest any good references for (or any experts on) analysis over non-Archimedean ordered fields, such as the field of rational functions in one variable (ordered at 0, or if you prefer at ...
James Propp's user avatar
  • 19.7k
12 votes
2 answers
2k views

Implicit function theorem at a singular point?

Let $F:\mathbb{R}^2 \rightarrow \mathbb{R}$ be three times continuously differentiable in some open neighborhood $\mathcal{U}$ of $(0,0)$. Suppose that $F(0,0) = F_x(0,0) = F_y(0,0) = F_{xy}(0,0) = 0$ ...
dettonville's user avatar
0 votes
1 answer
606 views

Difference between spaces of integrable functions w.r.t Lebesgue measure and Borel measure [closed]

Is there a difference between $L^p(\mathbb R,\mathfrak B,\beta)$ and $L^p(\mathbb R,\mathfrak L,\lambda)$ ? Here I denoted by $\lambda$ the Lebesgue measure, defined on the Lebesgue $\sigma$-algebra $\...
user avatar
5 votes
2 answers
1k views

Stone-Weierstrass for monotone functions

Let $\; f : [0,1] \to \mathbb{R} \;$ be continuous and non-decreasing. $\;\;$ Let $\epsilon$ be a real number such that $\; 0 < \epsilon \;$. Does it follow that that there exists a real ...
user avatar
0 votes
1 answer
659 views

Under what condition will this set contain a limit point of [0,1)?

Let $T_1,T_2,....T_n$ be numbers such that $T_k= k$ no. of digits in decimal expansion of an irrational number, say $\alpha$, starting from $(\frac{k(k-1)}{2}+1)^{th}$ digit in the decimal expansion. ...
nb1's user avatar
  • 230
0 votes
1 answer
316 views

Modulo dynamics on [0,1)

For $T: \mathbb{R} \mapsto \mathbb{{R}_{+}}$, we have $\{ {T}^{n}(\theta)\ mod \ 1\} \subset [0,1)$. (where ${T}^{n}(\theta)$ means applying $T$ $n$ times on $\theta$, not the $n$th power of $T(\...
Eric's user avatar
  • 2,619
5 votes
2 answers
4k views

Bounded sequences with divergent Cesàro mean

It is well known that there are bounded sequences with divergent Cesàro mean, i.e., a bounded $a_n$ for which given $$c_N := \frac{1}{N}\sum_{n=1}^N a_n,$$ the sequence $(c_N)_{N\geq1}$ has no limit. ...
Mateus Araújo's user avatar
2 votes
1 answer
1k views

On an eigenvalue inequality

Let $\lambda_1 (\cdot)$ be the larger absolute value eigenvalue of a $2\times2$ matrix and $\lambda_2 (\cdot)$ the smaller absolute value eigenvalue of a $2\times2$ matrix, i.e. $|\lambda_1 (\cdot)| \...
user20216's user avatar
5 votes
3 answers
5k views

Zeros of "exponential" function

Define ${f}_{i}(x) = \sum_{j=1}^{i} (-1)^{i-j}{i \choose j}j^x$, where $i=1,2,3,...$ and $x \in \mathbb{R}$. For integer $x \geq i$, ${f}_{i}(x)$ reduces to ${f}_{i}(x)=i!S(x,i)$, where $S(x,i)$ is ...
Eric's user avatar
  • 2,619
6 votes
2 answers
1k views

On the uncountability of zero sets

If $f$ is any real-valued function, we define its zero set $Z_f = \{ x : f(x) = 0 \}$. Obviously, the zero set of a nice function can be uncountable. e.g., if $f(x) = 0$ on an uncountable domain. I ...
Tom LaGatta's user avatar
  • 8,512
1 vote
2 answers
450 views

A smoothness of $f(\sqrt[p] x)$

Let $f: \mathbb{R} \rightarrow \mathbb{R}$ be a smooth function let $p \in \mathbb{N}$, $p \geq 2$. Assume that $f^{(k)}(0)=0$ for all $k \notin p \mathbb{N}$. Is it true that then $g(x)=f(\sqrt[p] x)$...
arc's user avatar
  • 277
3 votes
1 answer
500 views

Hausdorff measure on product spaces of p-adic integers

This question came up (unexpectedly) in a problem I was working on a few years ago. It may not be too difficult but I never got around to figuring out the answer, because all I needed at that time was ...
Alan Haynes's user avatar
  • 1,723
6 votes
0 answers
8k views

Dual space of continuous functions

Let $C_b(\Omega,V )=$ { $ f:\Omega\rightarrow V $ } is the Banach space of all bounded continuous functions in Banach space $V$ with a norm $\|\cdot\|$ defined as $\|f\|_\infty=\sup _{x\in\Omega}\|f(x)...
Mariarty's user avatar
  • 385
4 votes
2 answers
5k views

Ratio of Sequences Sum Inequality

I have two real sequences $a_1,a_2,\dots,a_n$ and $b_1, b_2, \dots, b_n$, with $a_i > 0$ and $1 \leq b_i < n$, and I'm looking for a lower bound of $\sum_i \frac{a_i}{b_i}$ in terms of $\sum_i ...
Michael Biro's user avatar
  • 1,182
2 votes
1 answer
255 views

Quotients of perfect powers separated by an integer

Let $a_n=\frac{(n+1)^{n+2}}{n^n}$ and $b_n=\frac{(n+2)^{(n+1)}}{(n+1)^{n-1}}$. Then it is easy to see that $a_n \leq b_n$ for all integers $n\geq 1$ (because the sequence $(1+\frac{1}{n})^n$ is ...
Ewan Delanoy's user avatar
  • 3,595
6 votes
2 answers
2k views

non-maximal prime ideal in the ring of continuous functions

Let $A=C(0,1)$ be the ring of continuous real valued functions on the open interval $(0,1)$. It is not too difficult to show that if $\mathfrak{m}\subseteq A$ is a maximal ideal with residue field $A/\...
Hugo Chapdelaine's user avatar
4 votes
2 answers
371 views

Heights of several interesting posets

Let the height of a poset $P$ be the supremum of ordinals that are order types of all well-ordered subsets of $P$ (with order inherited from $P$). Define several sets of total functions, in each ...
Vladimir Reshetnikov's user avatar
4 votes
1 answer
627 views

Does such a smooth function exist?

I am looking for a $C^\infty $ function $g:\mathbb{R}^3\to \mathbb{R}^3$ such that $g(x)=0$ for $|x|\le 1$ and $g(x)=x$ for $|x|\ge 2$. Certainly such $g$ can be constructed, but I also want it to ...
flavio's user avatar
  • 450
9 votes
2 answers
1k views

Fourier transform of x2 invariant measure

Let $T:\mathbb{R}/\mathbb{Z}\rightarrow \mathbb{R}/\mathbb{Z}$ be the map defined by $T(x)=2x$, and suppose that $\mu$ is a $T$ invariant and ergodic Borel probability measure on the space, which is ...
Alan Haynes's user avatar
  • 1,723
2 votes
1 answer
465 views

Showing the derivative of this function is equal to $0$ a.e [closed]

Define $f:[0,1]\to [0,1]$ by $f(0)=0$, and $$f(x)=\sum\limits_{r_n\le x} 2^{ -n }$$ with $0\lt x\le 1$ where $[r_n]_{n\in \mathbb{Z^+} } = \mathbb{ Q} \cap (0,1) $. How to show that the derivative $...
Leitingok's user avatar
  • 133
21 votes
3 answers
3k views

Prime ideals in the ring of germs of continuous functions

We all know that the ring of germs of continuous functions at a point on, say $\mathbb{R}$, has a unique maximal ideal- namely, those functions that vanish at that point. Can anyone think of a single ...
Dylan Wilson's user avatar
  • 13.5k
4 votes
2 answers
2k views

mean value theorem for operators

This might be a trivial question but I am not very familiar with the subject matter. I was wondering if some sort of mean value theorem works for operators on function spaces. Say $F: \mathcal{S_1} \...
Nima's user avatar
  • 85
1 vote
2 answers
3k views

Continuation of a smooth function

Setting Suppose I have two bounded open domains $\Omega' \subset \Omega \subset \mathbb{R}^n$ (I'm particularly interested in case n = 2 or n = 3). We assume that all boundaries of domains are $C^\...
Kirill Shmakov's user avatar
2 votes
0 answers
917 views

Guessing game with guess cost

This is a question about Problem 328 on the website Project Euler. A description of the problem is provided in the previous link. I was wondering if there has been any research done on this question. ...
Alex R.'s user avatar
  • 4,952
2 votes
0 answers
495 views

Characterization of weak Lebesgue spaces [closed]

I would be interested to know whether the following is true: Let $\Omega$ be a bounded open set in $\mathbf{R}^n$. Let $g$ be a nonnegative function $g : \Omega \to \mathbf{R}$. If there is a ...
vizietto's user avatar
  • 373
11 votes
4 answers
5k views

The metric space associated to a measure space

Let $(X, \mathcal{A}, \mu)$ be a measure space such that $\mu(X) < \infty$. We say that two measurable sets $A$ and $B$ are equivalent if $\mu (A \Delta B) = 0$. The equation $$ d(A,B) = \mu (A \...
Daniel Barter's user avatar
8 votes
2 answers
753 views

Patching together homeomorphisms: how badly can it fail?

Suppose we have a set $X$ with $X=U \cup V$. If we pick a permutation $f$ of $U$ and a permutation $g$ of $V$ which agree on the intersection $U \cap V$, we can coalesce them into one big endo-map $F$ ...
Bruno Joyal's user avatar
  • 3,910
19 votes
2 answers
2k views

Constants for Rolle's Theorem applied to polynomials

Rolle's Theorem states that $f(1/2)=f(-1/2)+f'(x)$ has a root in the open real interval $(-1/2,1/2)$ if $f$ is continuous and differentiable. How large can the absolute value of such a root $\xi$ be ...
Roland Bacher's user avatar
0 votes
1 answer
224 views

Special functions on the unit disk

Let $\mathbb{D} = \{ (x,y) \in \mathbb{R}^2 \mid x^2 + y^2 < 1 \}$ be the unit disk. We say a function $f : \mathbb{D} \rightarrow \mathbb{D}$ is a winner if it satisfies the following: 1) it is a ...
expmat's user avatar
  • 1,271
8 votes
1 answer
2k views

Does integrating with respect to a finitely additive measure respect addition?

Let $X$ be a set and $\mathcal{A} \subseteq P(X)$ a $\sigma$-algebra. Assume $\nu : \mathcal{A} \to [0,\infty]$ is a finitely additive measure. If $f : X \to [0,\infty]$ is a measurable function, we ...
Daniel Barter's user avatar
1 vote
1 answer
6k views

How to determine whether a multivariate function is bounded or not

Suppose there is a function $f:\mathbb{R}_+^n\mapsto \mathbb{R}$. Are there any systematic ways to determine whether the range of $f$ is bounded or not? For example, there is a function $f(x,y)=-x^2+...
Allen's user avatar
  • 141
2 votes
2 answers
711 views

Power function inequality

Let $x$ and $p$ be real numbers with $x \ge 1$ and $p \ge 2$ . Show that $(x - 1)(x + 1)^{p - 1} \ge x^p - 1$ . I recently discovered this result. I am sure it is known, but it is new to me. It is ...
Richard Hevener's user avatar
2 votes
1 answer
2k views

Modified Lebesgue differentiation theorem

Let $\Omega\subset \mathbb{R}^n$ an open set and $u:\Omega\to \mathbb{R}$ be a (locally) $L^1$-function. Then it is well known that the Lebesgue differentiation theorem holds: For almost every $x\in \...
Florian's user avatar
  • 2,270
9 votes
1 answer
10k views

Can the supremum of continuous functions be discontinuous on a set of positive measure? [closed]

Given a sequence of continuous functions $f_n(x)$, all defined on a compact set $D$ and assuming $f_n(x)$ is uniformly bounded. Let $f(x) = sup_n f_n(x)$. It is clear that $f(x)$ is not necessarily ...
user18629's user avatar
3 votes
0 answers
211 views

Elementary analysis: reference request

Given the continuous maps $[0,\infty) \to \mathbb R$ define the following "truncation at level $K$ operator", $T$: $T(f)(t) = f(\min(t, S_f))$, where $S_f = \inf \{ s : f(s) \ge K \}$ So essentially ...
Tom Ellis's user avatar
  • 2,895
2 votes
0 answers
224 views

Idea behind choosing $\small f(x)$ as $c^{s}x^{p-1} \frac{[\theta(x)]^{p}}{(p-1)!}$ in the proof that $\pi$ is transcendental [closed]

I am going through the article at this link, where the author proves that: "$\pi$ is $\text{transcendental}$ over $\mathbb{Q}$". Although, I understand the proof, I have some doubts. At page $6$, the ...
C.S.'s user avatar
  • 4,795
4 votes
2 answers
1k views

$L^1$ norm of the Fourier transform of a truncated Gaussian

I asked this question on Math StackExchange recently but the only useful comment I got was that this could be a good question for Math Overflow. Here it goes: Consider the Gaussian $G(x):=e^{-x^2}$ ...
user17240's user avatar
  • 852
21 votes
0 answers
1k views

Almost everywhere differentiability for a class of functions on $\mathbb{R}^2$

A while ago, I came across the following problem, which I was not able to resolve one way or the other. Let $f,g\colon\mathbb{R}^2\to\mathbb{R}$ be continuous functions such that $f(t,x)$ and $g(t,...
George Lowther's user avatar
5 votes
2 answers
560 views

implicit function theorem for algebraic sets

We know by the standard Implicit Function Theorem that If $f:\mathbb R^4\rightarrow\mathbb > R^2$ is a polynomial (or in fact any continuously differentiable function), then there is a ...
filipm's user avatar
  • 1,359
1 vote
1 answer
224 views

Can symmetrizing a contraction increase the speed of convergence?

Dear community, I have a problem which is very simple to state but seems to be hard to answer. Statement of the problem Let $f$ and $g$ be two symmetric, real functions in $n$ and $m$ variables, ...
herrsimon's user avatar
  • 199
6 votes
2 answers
929 views

reverse mathematics strength of "Lipschitz functions are somewhere differentiable"

What is the reverse mathematics strength of "For all Lipschitz functions $\; f : \mathbb{R} \to \mathbb{R} \;$, $\;$ there exists a real number $x$ such that $f$ is differentiable at $x$." ? (...
user avatar
0 votes
0 answers
165 views

minimizing the integral of a function over square sets.

Hi! I'm interested in some problems, but to be honest i'm not sure of the field they belong to. Let $h(x,y)$ be a bivariate function on $X^2$, where $X$ is some nice topological space (for instance $...
kaleidoscop's user avatar
  • 1,352
2 votes
1 answer
942 views

A singular value inequality

Let $s_1,s_2: \mathbb{R}^{2\times 2} \mapsto \mathbb{R}_+$, $s_{1}\left(\cdot\right)\ge s_{2}\left(\cdot\right)\ge 0$, be the singular values of a $2\times2$ matrix. Is it true that $$\left|s_{1}\...
user7738's user avatar
  • 173
67 votes
9 answers
7k views

Taking "Zooming in on a point of a graph" seriously

In calculus classes it is sometimes said that the tangent line to a curve at a point is the line that we get by "zooming in" on that point with an infinitely powerful microscope. This explanation ...
Steven Gubkin's user avatar
3 votes
3 answers
522 views

Closure of singular points

Let $f(x,y)$ be a complex degree $d$ polynomial that has this particular form. $$ f = \frac{f_{02}}{2} y^2 + \frac{f_{21}}{2} x^2 y + \frac{f_{12}}{2} x y^2 + \frac{f_{03}}{6} y^3 + \frac{f_{40}}{...
Ritwik's user avatar
  • 3,245

1
107 108
109
110 111
113