This is my first question in MathOverflow and I will do my best to format it correctly and make it clear. I am reading a paper on dispersive wave turbulence which introduces the following family of equations: $$i\psi_t=|\partial_x|^{\alpha}\psi+|\partial_x|^{-\beta/4}\left(\left||\partial_x|^{-\b...

Reading the Wikipedia article on Diophantine sets, I was intrigued by the following remark near the end: Corresponding to any given consistent axiomatization of number theory, one can explicitly construct a Diophantine equation which has no solutions, but such that this fact cannot be proved wit...

Definitions: A measurable subset $S$ of $\mathbb R$ is said to be mesoscopic if there exists a continuous function $f: \mathbb R \to \mathbb R$ such that $f(S)$ is Lebesgue measurable and has nonzero Lebesgue measure. Question: Is the set of zeroes of a Brownian motion almost surely a mesoscopic...

So I get this special sequence of "items" as the following: 2 1 3 4 7 8 2 5 2 3 9 But look! If I put some numbers (randomly) in front of the sequence: 3 4 2 1 3 4 7 8 2 5 2 3 8 And yeah! It's changed! ... Wait... The sequence is oddly shuffled now... Oh! And longer?! 3 4 2 1 7 4 3 8 2 5 8 3 ...

Let $(X,d)$ be an arbitrary metric space and let $\Bbb B(x,r)$ denote the closed ball with center $x \in X$ and radius $r>0$. For $p\geq 0$, let $H^p$ denote the $p$- dimensional Hausdorff measure. Under which assumptions on $X$ and $p$ is $H^p(\Bbb B(x,r))< + \infty$? Is this always the case eve...

Problem A positive integer is said to be balanced if the number of its decimal digits equals the number of its distinct prime factors. For instance, $15$ is balanced, while $49$ is not. How many balanced numbers are there? My thoughts One digit balanced numbers are the prime ones. So, we have $4$...

James Grimmelman (https://twitter.com/grimmelm/status/1406257482029322250?s=20) posted an idea for a thousands glyph (three vertically stacked sideways zeros). What would be the best way of creating one that would scale appropriately (observe \small \large, etc)?

A (unital) ring $R$ with the property that every element other than the identity $1_R$ is a (two-sided) zero divisor, seems to be commonly called a "$0$-ring" or "$\mathcal O$-ring". These rings were first studied by P.M. Cohn (though only in the commutative setting) in Rings of zero divisors, P...

I am writing my master's thesis and I want to start the roman numerals from ii instead of i? Is there any advice on how to do that please?