Difference between revisions of "User talk:Nikita2"
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If $\exp(tw), \exp(tw^{-1}) \in L^1_{\operatorname{loc}}$ for each $t > 0$ then $w$ is regular weight. | If $\exp(tw), \exp(tw^{-1}) \in L^1_{\operatorname{loc}}$ for each $t > 0$ then $w$ is regular weight. | ||
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| + | ==Welcome== | ||
| + | Hello Nikita2 and welcome! Are you also a ''descendant'' of De Giorgi? | ||
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| + | I saw you texxed the page [[Luzin-C-property]]. I was thinking some time ago to start renaming all pages using Lusin and | ||
| + | set automatic redirections for the ones with Luzin. What do you think about it? [[User:Camillo.delellis|Camillo]] ([[User talk:Camillo.delellis|talk]]) 12:10, 25 November 2012 (CET) | ||
Revision as of 11:10, 25 November 2012
Weighted Sobolev Spaces
Let $D\subset \mathbb R^n$ be open and let $w:\mathbb R^n\rightarrow[0,\infty)$ be a locally summable nonnegative function "weight". For $1\leqslant p<\infty$ and $l\in\mathbb N$ we can define weighted Sobolev space $W^l_p(D,w)$ as the set of locally summable functions $f:D\to\mathbb R$ such that for every multi-index $\alpha$ there exists weak derivative $D^{\alpha}f$ and
\begin{equation} \|f\mid W^l_p(D, w)\| = \Biggl(\,\sum\limits_{|\alpha|\leqslant l}\ \int\limits_{D}|D^{\alpha}f|^p(x)w(x)\, dx \,\Biggr)^{\frac{1}{p}} < \infty. \end{equation}
One of conjectures of De Giorgi
If $\exp(tw), \exp(tw^{-1}) \in L^1_{\operatorname{loc}}$ for each $t > 0$ then $w$ is regular weight.
Welcome
Hello Nikita2 and welcome! Are you also a descendant of De Giorgi?
I saw you texxed the page Luzin-C-property. I was thinking some time ago to start renaming all pages using Lusin and set automatic redirections for the ones with Luzin. What do you think about it? Camillo (talk) 12:10, 25 November 2012 (CET)
Nikita2. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Nikita2&oldid=28881