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Q&A for professional mathematicians
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I hope everyone is doing well. Let $K \subset \mathbb{R}^n$ be a centrally symmetric convex body $(K = -K)$. Denote by $K \mid H$ the orthogonal projection of $K$ onto $H$, where $H$ is an $n - 1$
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Hottest Questions Today - MathOverflow
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Mathoverflow.net news digest
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12 years
Diophantine equation - $a^4+b^4=c^4+d^4$ ($a,b,c,d > 0$)
How can I find the general solution of $a^4+b^4=c^4+d^4$ ($a,b,c,d > 0$)?And how did Euler find the solution $158^4+59^4=133^4+134^4$?
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0 days
Can fractal sets be almost closed under addition?
Let $E \subset \mathbb R^n$ have nonzero finite $s$-dimensional Hausdorff measure. Consider the natural uniform probability measure on $E$, which is just normalised $s$-Hausdorff measure.
Question: Let $X, Y$ be drawn uniformly and independently from $E$. Is it true there exists a constant $\delta(s, n) > 0$ independent of $E$ such that... -
2 years
Distribution of the change in Hamming distance between two sequences
Suppose I have two strings $s_1$ and $s_2$ of equal length $L$ with an alphabet size of $k \geq 2$. Suppose further that these two strings initially have a Hamming distance equal to $d_0 = H(s_1,s_2)$.
I then proceed through each character in one of the strings (say $s_2$), changing with probability $\mu$ the character to another distinct value in the alphabet, uniformly from the $k-1$ choices remaining. The number of edits is therefore distributed... -
0 days
Sparse divisor/Kloosterman sums over divisors of h 6 +27k 2 in a no-long-variabl...
I am trying to understand whether there is any existing machinery that could plausibly give cancellation in the following sparse divisor/Kloosterman-type regime.
Let
$$R(h)=h^6+27k^2,$$
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