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12:14 AM
3
Q: Can a nowhere locally Hölder function be differentiable almost everywhere?

Nate RiverFix $0 < \alpha < 1$. Suppose $f$ is nowhere locally $\alpha$-Hölder continuous - that is, it is not $\alpha$-Hölder on any open subinterval of $\mathbb R$. Is it possible for $f$ to be differentiable almost everywhere?

 
 
2 hours later…
1:56 AM
0
Q: Print 100 digits of Champernowne's Constant

CrSb0001Inspired by this and this question Challenge Your challenge is to print any 100 consecutive digits of Champernowne's Constant. You must give the index at which that subsequence appears. The 0 at the beginning is not included. For example, you could print any of the following: +-----+-------------...

 
 
10 hours later…
12:26 PM
4
Q: Request for explicit character tables of conjectured, non-existent finite simple groups

Sebastien PalcouxIn connection with the historical development of the classification of finite simple groups, I am interested in a particular aspect that seems to be less well-documented than the main narrative of discovery and confirmation. Specifically, I am referring to the question (posted 11 years ago) Group...

 
 
6 hours later…
6:38 PM
1
Q: binomial coefficients are integers because numerator and denominator form pairs?

user11566470I've heard of a claim that when calculating the binomial formula with integer input: $\mathrm{Bin}(n,k):=\prod^k_{i=1}\frac{n+1-i}{i}\in \mathbb{N}\ (\forall n,k\in\mathbb N)$ each denominator divides an unique numerator. since for calculating $n \choose k$ you divide $k$ many numerators ($n+1-k$...

 
7:08 PM
1
Q: A question about Lie groups

user32415Let $G$ and $G'$ be Compact connected Lie groups (which are not necessarily simply connected) with Lie algebra $\mathfrak{g}$ and $\mathfrak{h}$. Suppose that the two Lie algebras are isomorphic, under which conditions I can deduce that the Lie groups are also isomorphic?

 
 
2 hours later…
9:08 PM
2
Q: Smallest prime factor of numbers

alidixon222The literature refers to smooth integers as \begin{equation}\Psi(x,y):=\#\{n\le x:P_1(n)\le y\},\end{equation} where $P_1(n)$ is the largest prime factor of $n$. There are lots of results studying $\Psi(x,y)$, but I am interested in a least prime factors analogue. Is there a function, similar to ...

 

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