Let $\Omega \subset R^n$ an open bounded domain and consider $B_r(x_0) \subset \Omega$ an open ball. Let $u \in W^{1,p}(\Omega)$ ($p \geq 2$). Let $s > n$ and suppose that $\int_{B_r(x_0)} |\nabla u| ^s < \infty$.Does the following inequality is true ?
$$ |u(x) - u(x_0)| \leq C(n,p,\Omega) |x - x_0| ^{1 - \frac{n}{s}} (\int_{B_{r}(x_0)} |\nabla u| ^s )^{1/s} $$
I am asking this because of the corolary 27.6 of this lectures (it is a general $C¹(R^n) $ case of the above inequality ): http://www.math.ucsd.edu/~bdriver/231-02-03/Lecture_Notes/Sobolev%20Inequalities.pdf
I dont need a proof , just a reference.
Any help will be apreciated!
Thanks in advance
Look in Chapter 5 of Partial Differential Equations by Evans. Of course the inequality requires $|x - x_0| \le r$ but the proof in Evans may have a stricter requirement.