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9 votes
2 answers
2k views

Does the Weierstrass function have a point of increase?

Problem The Weierstrass function $W(x)$ is given by $W(x)=\sum_{n\geq 0} a^n \cos(b^n \pi x)$ where $0< a <1$ and $b$ is an odd integer such that $ab > 1+3\pi/2$. A function $f:\mathbb{R}\...
Bati's user avatar
  • 491
1 vote
1 answer
420 views

density of a set

let $S=\{\sin (n)|n \in N\}$. We can prove $S$ is dense in $[-1,1]$. So is the set $\{\sin( n^2)|n \in N\}$; but the set $\{\sin (n^3)| n \in N\}$ is not dense in $[-1,1]$. How to prove this?
gubo's user avatar
  • 11
-3 votes
1 answer
332 views

Convergence Question [closed]

If $\alpha _{n}\rightarrow \alpha$, then how does one show that for any j=1,2,... and $\epsilon> 0$, if $sup\int \left | x \right |^{j+\epsilon }d\alpha _{n}<\infty$, then $\int x^{j}d\alpha _{n}...
David's user avatar
  • 1
6 votes
2 answers
2k views

How to prove the Hahn-Banach constructively

I am just wondering, how to prove the Hahn-Banach theorem constructively for a finite dimensional normed vector space. Thanks in advance for any helpful answers.
q.g's user avatar
  • 71
11 votes
6 answers
18k views

One-line proof of the Euler's reflection formula

A popular method of proving the formula is to use the infinite product representation of the gamma function. See ProofWiki for example. However, I'm interested in down-to-earth proof; e.g. using the ...
juno's user avatar
  • 111
4 votes
2 answers
323 views

Is there a sufficient criteria to guarantee that $\lim_{n} a_{nn} = \lim_{m} \lim_{n} a_{mn}$ ?

Let $a_{mn}$ be a sequence in some $\mathbb{R}^k$. We know in advance that $$\lim_{n} ~a_{nn} = L_1, \qquad \lim_{m}~ \lim_{n} ~a_{mn} = L_2 $$ exist. Is there a sufficient criteria to conclude ...
Ritwik's user avatar
  • 3,245
10 votes
1 answer
1k views

Real analytic function, injective, non surjective and preserving the rationals ?

I'd like to prove the non-existence of a real analytic function, injective, non-surjective that sends rationals to rationals. Is it a classical result ? If not, any hints on how to prove it ? Thanks ...
christian aebi's user avatar
2 votes
3 answers
913 views

A definite integral

Hello, I am trying to find an explicit form of the following definite integral. I have tried Mathematica and it failed to give an answer. I am wondering whether anyone knows this integral. It might ...
Anand's user avatar
  • 1,649
6 votes
2 answers
2k views

Continuity of a convolution (Version 2)

Hello, This problem bothers me for some time. Suppose that $\mu$ is a non-negative Radon measure (or positive linear functional of the space of continuous functions with compact support); $\psi$ is ...
2 votes
2 answers
2k views

Does a bounded real function have an analytic continuation [closed]

Consider the function $f:[0,1]\rightarrow\mathbb{R}$, where $f$ is real-analytic on the open interval $(0,1)$ $f$ is bounded on the closed interval $[0,1]$ (ie. there is some constant $C$ such that $-...
Essex's user avatar
  • 23
2 votes
1 answer
276 views

Conformal Extension from a closed set to open

Let $Q = \{(x,y): x,y\geq 0\} $ be the 1st quadrant of $\mathbb R^2$, and $f$ is a function defined on it such that all the partial derivative(any order) of $f$ exists and continuous. By Whitney ...
zapkm's user avatar
  • 541
1 vote
2 answers
1k views

An interesting doubly infinite series

Let $0<\mu<1$ and $\alpha:=1-\mu^2$. Consider the function $$f(x):=x\sum_{k=-\infty}^\infty\mu^{4k}e^{-\alpha\mu^{4k}x}-\frac{1}{x}\sum_{k=-\infty}^\infty\mu^{4k}e^{-\alpha\mu^{4k}/x},$$ ...
Erwin's user avatar
  • 201
3 votes
0 answers
237 views

Monotonicity of a certain parametric integral

I would like to ask for some help (hints, ideas) in solving the following problem: Given integer $n>0$ and real $\alpha>0,\beta>1$ we want to show, that if we define for any $x\in\mathbb{R}...
Maciej Skorski's user avatar
1 vote
1 answer
528 views

Function space between uniform continuity and Hölder continuity

Can you give an example of a complete metric vector space of uniformly continuous functions that is strictly contained between the set of uniformly continuous functions on $\mathbb R^d$ and the Hölder ...
shuhalo's user avatar
  • 5,327
1 vote
0 answers
346 views

Gauge integral of the derivative of a function except on a set of measure 0.

For the entire question, the interval I am integrating over is $[0,1]$. Background: In order to exhibit an isometry from $L^2[0,1]$ into $l^2$, I need to either assume absolute continuity over some ...
Hunter Spink's user avatar
5 votes
1 answer
543 views

Acceleration via smoothing

Is the following approach to accelerating the rate of convergence of $(1+1/2+\dots+1/n)- \ln n$ (with $n=1,2,3,\dots$), and other sequences like it, in the literature? Let $f(t)=(\sum_{1 \leq n \leq ...
James Propp's user avatar
  • 19.7k
1 vote
2 answers
382 views

A question about zeros of Tate type integral

Fix a positive integer $n$. Fix a continuous character $\chi$ of $\mathbb{R}^*$ with the form $\chi(x)=sign(x)|x|^t$ for some complex number $t$. If $\phi$ is a Schwartz function on $\mathbb{R}$, let $...
user1832's user avatar
  • 2,709
8 votes
2 answers
471 views

Multiplying functions on the unit square as generalized matrices

Consider the $\mathbb{R}$-vector space of sufficiently nice real-valued functions on the unit square $I^2$, where "sufficiently nice" could be taken to mean any one of a number of things - say ...
Bruno Joyal's user avatar
  • 3,910
4 votes
1 answer
561 views

Taylor Series Remainder

Suppose I have a $C^\infty$ smooth function $f$ defined on the reals. I can apply Taylor's formula and get the local expression $$ f(x) = \sum_{i=0}^l\frac{f^{(i)}(0)}{l!}x^i+ f^{(l+1)}(\xi(x))x^{l+...
Philipp's user avatar
  • 979
1 vote
1 answer
3k views

Is point to set distance continuous?

Assume $\mathbf{d}:\mathbb{R}^n\times\mathbb{R}^n\rightarrow\mathbb{R}_0^+$ is a metric such that the function $\psi(x)=\mathbf{d}(x,y)$ for any $y\in\mathbb{R}^n$ is continuous in the Euclidean ...
Maj's user avatar
  • 27
4 votes
1 answer
1k views

Hausdorff dimension of graphs .

Is there an easy way to calculate the Hausdorff dimension of the graph of a real "elementary" function, like $f(x)=\sin(1/x)$ ?
Feldmann Denis's user avatar
4 votes
1 answer
306 views

ordered fields with the bounded value property, without choice

In his answer to my question ordered fields with the bounded value property, Ali Enayat showed that if one assumes the countable axiom of choice, then there exists a non-Archimedean ordered field $F$ ...
James Propp's user avatar
  • 19.7k
15 votes
1 answer
2k views

Interpolating between piecewise linear functions, with a family of smooth functions

Let $[a,b)\subset\mathbb R$, and $F,G:[a,b)\to\mathbb R$ two decreasing piecewise linear functions so that $F(x)\leq G(x)$ for any $x\in[a,b)$. We assume that: there is a number $k\in\mathbb N-\{0\}$ ...
Cristi Stoica's user avatar
5 votes
1 answer
878 views

Numerically finding a Mercer expansion for a given covariance kernel

Let $c(r)$ be a nice, continuous function with compact support. For example, $c(r) = \tfrac 1 5 (1-r)^{11} \big( 5 + 55r + 239 r^2 + 429 r^3 \big)$ for $r \in [0,1]$, and $c(r) = 0$ otherwise. On ...
Tom LaGatta's user avatar
  • 8,512
61 votes
1 answer
5k views

Every real function has a dense set on which its restriction is continuous

The title says it all: if $f\colon \mathbb{R} \to \mathbb{R}$ is any real function, there exists a dense subset $D$ of $\mathbb{R}$ such that $f|_D$ is continuous. Or so I'm told, but this leaves me ...
Gro-Tsen's user avatar
  • 32.5k
4 votes
2 answers
2k views

a different nested intervals theorem

Is there any literature on (and a standard name for) the proposition that for any arbitrary-cardinality collection of closed intervals in the reals that is nested (in the sense that, given any two of ...
James Propp's user avatar
  • 19.7k
4 votes
1 answer
222 views

a closed-form for mean/integral, but weighting positive differences between values and "mean" differently from negative differences?

Given a curve $f(x)$ (for $x \in [0,1]$), and a line $y=a$, let $U$ be the total area below $f$ and above $a$, and let $L$ be the total area above $f$ and below $a$. If $L=U$, this means that $a =\...
matt j's user avatar
  • 41
2 votes
2 answers
643 views

Estimating the Hausdorff measure of a subset of the sphere

Let $f: S^{n-1}\to \mathbb{R}$ be a continuous function ($S^{n-1}\subset \mathbb{R}^n$ is the unit sphere), $f(a)>0$ and $f(b)<0$ for certain points $a,b\in S^{n-1}$. By continuity these ...
Florian's user avatar
  • 2,270
3 votes
1 answer
1k views

ordered fields with the bounded value property

Say that an ordered field $F$ satisfies the bounded value property if, for all $a < b$ in $F$ and for every continuous function $f$ from $[a,b]_F := ${$x \in F: a \leq x \leq b$} to $F$, there ...
James Propp's user avatar
  • 19.7k
8 votes
3 answers
786 views

truth vs. provability for ordered fields

In Propositions equivalent to the completeness of the real numbers I started by asking "Can anyone point me to a reasonably comprehensive article (or book chapter) explaining which basic theorems of ...
James Propp's user avatar
  • 19.7k
6 votes
2 answers
812 views

A dual theory to the theory of currents?

The k-currents are defined as dual space to the spaces of all smooth k-forms. (These monsters are used to work with the minimal k-surfaces.) Assume I want to look at the generalized k-forms; they can ...
ε-δ's user avatar
  • 1,785
3 votes
2 answers
949 views

Reference for proof that $C_b^* = rba$

The following theorem seems to have folk status: The topological dual of the space $C_b(X)$ of bounded continuous functions on a topological space $X$ is isomorphic to the space $rba(X)$ of finite, ...
Mark Peletier's user avatar
1 vote
1 answer
741 views

Some infinite products related to prime numbers.

Let $P$ be the set of all odd prime numbers. I am looking for all $s\in(1,\infty)$ for them $ A=\prod_{p\in P} (1+\frac{1}{(p-1)^s})^{p-1} $ exists (i.e. is finite). I know that it should be ...
Mahmood Alaghmandan's user avatar
3 votes
1 answer
491 views

Vanishing on Bad Sets

Let $f: \Bbb{R}^n \rightarrow \Bbb{R}$ be a non-negative function that vanishes on a set $\Omega$ that is compact and has positive measure. What is the minimial amount of regularity required of $f$ to ...
Viktor Bundle's user avatar
2 votes
2 answers
1k views

Characterization of Weakly measurable functions

I wonder if we can characterize weak measurability of a function taking values in a Banach space using sequence of step functions (functions that have finite range) just like how we define strong ...
Rhymer's user avatar
  • 23
5 votes
2 answers
719 views

Darboux function on $[0,1]$ with interesting property

I have proved a few years ago the following proposition: There exists $f: [0,1] \to [0,1]$ with Darboux property such that there exist $A,B \subset[0,1]$ with $A\cap B=\emptyset,\ A \cup B=[0,1]$ ...
Beni Bogosel's user avatar
  • 2,222
13 votes
6 answers
4k views

Finding f such that f(f(x))=g(x) given g

Suppose $g(x)$ is a smooth increasing function defined for $x \ge 0$ such that $g(x) \ge x$ for all $x$. Does there exist a function $f$ with similar properties such that $f(f(x))=g(x)$ for all $x \ge ...
David Corwin's user avatar
  • 15.4k
141 votes
17 answers
38k views

Why is differentiating mechanics and integration art?

It is often said that "Differentiation is mechanics, integration is art." We have more or less simple rules in one direction but not in the other (e.g. product rule/simple <-> integration by parts/...
vonjd's user avatar
  • 5,935
12 votes
1 answer
898 views

Converse to Banach’s fixed point theorem for ordered fields?

Suppose $R$ is an ordered field. Call a continuous map $f: R \rightarrow R$ a contraction if there exists $r < 1$ (in $R$) such that $|f(x)-f(y)| \leq r |x-y|$ for all $x,y \in R$ (where $|x| := \...
James Propp's user avatar
  • 19.7k
11 votes
3 answers
3k views

Is the supremum of continuous functions integrable?

Let $f_\alpha$ be a family of continuous positive functions $\mathbb R\to \mathbb R$ where the index $\alpha$ runs in a compact metric space and the map $\alpha\to f_\alpha$ is continuous with ...
Igor Belegradek's user avatar
7 votes
3 answers
3k views

incompleteness in real analysis

Godel's theorem tells us that any sufficiently powerful consistent formal theory of the integers is incomplete; but what about formal theories of the real numbers? More precisely, what about theories ...
James Propp's user avatar
  • 19.7k
1 vote
1 answer
1k views

How to verify the weak convergence?

Given a finite measure on a compact, take $f_n\in L^1$ with norms $\leq 1$ and suppose that $\int f_n g$ tends to a limit for all continuous $g$. Is it true that then $\int f_n g$ converge for any $g\...
bib's user avatar
  • 11
6 votes
3 answers
11k views

Sums of uncountably many real numbers [closed]

Suppose $S$ is an uncountable set, and $f$ is a function from $S$ to the positive real numbers. Define the sum of $f$ over $S$ to be the supremum of $\sum_{x \in N} f(x)$ as $N$ ranges over all ...
David Corwin's user avatar
  • 15.4k
0 votes
1 answer
604 views

Find a explicit choice function of the "rationally equivalence class"

Define two real numbers to be rationally equivalent provided their difference is a rational number. from Royden Real Analysis
z0q0vk's user avatar
  • 3
20 votes
3 answers
4k views

Propositions equivalent to the completeness of the real numbers

Can anyone point me to a reasonably comprehensive article (or book chapter) explaining which basic theorems of calculus are equivalent to the completeness axiom of the reals and which ones aren't? ...
James Propp's user avatar
  • 19.7k
4 votes
0 answers
162 views

Symmetric functions and regularity (II)

My previous question (where $n=2$) was a bit too naive. I think that this one, which is the one being of genuine interest to me, is more involved. Let $f=\mathbb R^n\rightarrow\mathbb R$ be a ...
Denis Serre's user avatar
  • 52.3k
5 votes
1 answer
316 views

Symmetric functions and regularity

Let $f:\mathbb R^2\rightarrow\mathbb R$ be a symmetric function: $f(y,x)=f(x,y)$. It can therefore be written has a function of the elementary symmetric polynomials, here $f(x,y)=F(x+y,xy)$, where $F(\...
Denis Serre's user avatar
  • 52.3k
0 votes
1 answer
1k views

A question about regular signed or complex Borel measure under LRN decomposition

Suppose $\nu$ is a regular signed or complex Borel measure on $\mathbb R^n$, m is the Lebesgue measure on the class of Borel sets $\mathcal B_{\mathbb R^n}$ and the Lebesgue-Radon-Nikodym ...
zzzhhh's user avatar
  • 764
11 votes
1 answer
1k views

Proof of the "Neo-classical Inequality", a fractional extension of the binomial theorem

I came across the following inequality, dubbed the "Neoclassical Inequality" which holds uniformly in $p\geq 1$ and $n\in\mathbb N$: $$\frac{1}{p^2}\sum_{j=0}^n\frac{a^{\frac{j}p}b^{\frac{n-j}p}}{\...
Alex R.'s user avatar
  • 4,952
5 votes
0 answers
583 views

Cohomology of Real algebraic Varieities

I understand Serre's GAGA theorem as saying that equations over algebraically closed fields can be studied equally from the algebraic and analytic points of view, at least with respect to cohomology. ...
user avatar