Without knowing what Beamer theme you're using, it's hard to know what the enumerations should look like. Can you post a LyX file containing a minimal example?
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There it is! The reason why I want this "configuration" is that the three properties are proved on previous slides one by one (each proof being slightly different). However, it is useful to interpret Prop. 2 and Prop 3. together :)
Thank you very much for any hint! David ps. I'm very sorry for abusing this list! Thank you for putting up with me!
#LyX 1.3 created this file. For more info see http://www.lyx.org/ \lyxformat 221 \textclass beamer \begin_preamble \usetheme{Madrid} \useinnertheme{rectangles} \end_preamble \language english \inputencoding auto \fontscheme default \graphics default \paperfontsize default \spacing single \papersize Custom \paperpackage a4 \use_geometry 1 \use_amsmath 1 \use_natbib 0 \use_numerical_citations 0 \paperorientation portrait \paperwidth 128mm \paperheight 96mm \secnumdepth 3 \tocdepth 3 \paragraph_separation skip \defskip medskip \quotes_language english \quotes_times 2 \papercolumns 1 \papersides 1 \paperpagestyle default \layout Title Test \layout Author David \layout Institute @ Home \layout Date September 26, 2005 \layout BeginFrame Typical Sequences \layout FrameSubtitle Interpretation of Properties \layout Block \begin_inset ERT status Inlined \layout Standard {Properties of Typical Set} \end_inset \begin_deeper \layout Enumerate \begin_inset Formula $\Pr(A_{\epsilon}^{(n)})>1-\epsilon$ \end_inset for \begin_inset Formula $n$ \end_inset sufficiently large. \layout Enumerate \begin_inset Formula $|A_{\epsilon}^{(n)}|\leq2^{n(H(X)+\epsilon)}$ \end_inset . \layout Enumerate \begin_inset Formula $|A_{\epsilon}^{(n)}|\ge(1-\epsilon)2^{n(H(X)-\epsilon)}$ \end_inset , for \begin_inset Formula $n$ \end_inset sufficiently large. \end_deeper \layout Separator \layout Block \begin_inset ERT status Inlined \layout Standard {Interpretation} \end_inset \begin_deeper \layout Enumerate Almost \emph on any \emph default sequence is typical. \layout Enumerate \SpecialChar ~ \layout Enumerate The typical set is \emph on small. \emph default The number of all sequences is \begin_inset Formula $|\mathcal{X}|^{n}$ \end_inset while there are only \begin_inset Formula $\approx2^{nH(X)}$ \end_inset typical sequences. \end_deeper \layout Standard [My goal: to have 2 and 3 on the same line, aligned flush-right with respect to 1.] \layout EndFrame \the_end
