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As pointed out, this is possible only for $p\le n$. Let $u$ be an unbounded function in $W_0^{1,n}(B_{1/2})$, for instance $$ u(x)=\log |\log |x||-\log \log 2 $$ and let ${q_i}_i$ be a countable dens …

The implication does not work. What it is true is that if a measure admits $k$ Alberti representations, it is absolutely continuous with respect to $\mathcal H^k$. Actually, it is absolutely continuou …

If you take $u$ to be the distance from the boundary of $\Omega$ the two properties you look for are statisfied at every point of differentiability for $u$, indeed in any such point $x$ the gradient o …

Is $f'_n$ assumed to be the distributional derivative of $f_n$ or just the (a.e.) pointwise one? In the latter case, I think a counterexamples is given by considering a piecewise constant approximati …

It follows from co-area formula: $$ \int_A |Df|=\int_{\mathbb R} \mathcal H^{n-1} (\{f=t\}\cap A). $$ By taking $A=\{|Df|= 0\}$ one gets that $$ \int_{\mathbb R} \mathcal H^{n-1} (\{f=t\}\cap \{|Df|= …