X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/16dcc.git/blobdiff_plain/1b5eed47c5d9fada5fd208ab9a007f7d4355102e..d1db644de9d68c61725a279fc2ae459c067fbedc:/hamilton.tex?ds=inline diff --git a/hamilton.tex b/hamilton.tex index f4dc64a..0f63e06 100644 --- a/hamilton.tex +++ b/hamilton.tex @@ -181,14 +181,14 @@ c_{\mathsf{N}}a_{\mathsf{N}} + d_{\mathsf{N}}(a_{\mathsf{N}}+2) & = & 2^{\mathsf \qquad \left\{ \begin{array}{lcl} -d_{\mathsf{N}} & = & \dfrac{2^{\mathsf{N} -n.a_{\mathsf{N}}}{2} \\ -c_{\mathsf{N}} = \mathsf{N} - d_{\mathsf{N}} +d_{\mathsf{N}} & = & \dfrac{2^{\mathsf{N}} -n.a_{\mathsf{N}}}{2} \\ +c_{\mathsf{N}} &= &\mathsf{N} - d_{\mathsf{N}} \end{array} \right. $$ Since $a_{\mathsf{N}$ is even, $d_{\mathsf{N}}$ is defined. -Both $c_{\mathsf{N}}$ and $d_{\mathsf{N}}$ are obviously positves. +Moreover, both $c_{\mathsf{N}}$ and $d_{\mathsf{N}}$ are obviously positves. \subsection{Toward a local uniform distribution of switches}