From 109de0724d02428b8edf066c2ef27bafc4c1a7bb Mon Sep 17 00:00:00 2001 From: bangerth Date: Thu, 24 Jun 2010 21:48:34 +0000 Subject: [PATCH] Minor adjustments. git-svn-id: https://svn.dealii.org/trunk@21341 0785d39b-7218-0410-832d-ea1e28bc413d --- deal.II/examples/step-39/doc/intro.dox | 7 ++++--- 1 file changed, 4 insertions(+), 3 deletions(-) diff --git a/deal.II/examples/step-39/doc/intro.dox b/deal.II/examples/step-39/doc/intro.dox index ce485c67b2..db0f8c6d35 100644 --- a/deal.II/examples/step-39/doc/intro.dox +++ b/deal.II/examples/step-39/doc/intro.dox @@ -49,9 +49,10 @@ for a face F of a cell K, compute the value \sigma_{F,K} = p(p+1) \frac{|F|_{d-1}}{|K|_d}, @f] where p is the polynomial degree of the finite element -functions and $|.|$ denotes the Hausdorff measure of the corresponding -dimension of the object. If the face is at the boundary, choose $\sigma_F = \sigma_{F,K}$. -For an interior face, take the average of the two values at this face. +functions and $|\cdot|_d$ and $|\cdot|_{d-1}$ denote the $d$ and $d-1$ +dimensional Hausdorff measure of the corresponding +object. If the face is at the boundary, choose $\sigma_F = \sigma_{F,K}$. +For an interior face, we take the average of the two values at this face. In our finite element program, we distinguish three different integrals, corresponding to the sums over cells, interior faces and -- 2.39.5