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chris4aus
20-04-2012, 03:52
Hallo!

Die Zeit draengt zum Abgeben und ich habe noch keinen Erfolg gehabt.
Wieder ein Minimalbeispiel erstellt.
Fragen:
1) Nach Referenzen kommt erst eine leere Seite, dann erst die Tabelle. Warum?

2) Die Tabelle habe ich gedreht. Nun moechte ich aber mehr Platz zwischen den Zeilen einfuegen (geht gut mit \setlength{\extrarowheight}{6pt} --> Obwohl ich den Wert gerne auf 8 setzen wuerde). Nur leider bricht er die Seite zu spaet um, warum?

Danke schon mal im Vorraus,
Christiane

Hier der Text:

\begin{document}

\bibliographystyle{IEEEtran}
\begin{thebibliography}{99}
\bibitem{Subia2010}
B. Subia, J. Kundu and S. C. Kundu: "Biomaterial Scaffold Fabrication Techniques for Potential Tissue Engineering Applications"
\end{thebibliography}

\appendix
\nopagebreak
\begin{landscape}
\section{Nomenclature} % Nomenclature

\subsection*{Upper case}
\bgroup
\setlength{\extrarowheight}{6pt}%optimal 8
\tablefirsthead{%
Symbol & Meaning & size/\,value/\,range & section(s)\\
\hline}
\tablehead{%
\multicolumn{4}{l}{\small\sl continued from previous page}\\
\multicolumn{4}{l}{}\\
Symbol & Meaning & size/\,value/\,range & section(s)\\
\hline}
\tabletail{%
\multicolumn{4}{l}{}\\
\multicolumn{4}{r}{\small\sl continued on next page}\\}
\tablelasttail{}
\begin{mpsupertabular}{p{2cm}|p{9cm}|p{7cm}|p{2.1c m}}
\textbf{A} & matrix for layer geometry & $2$ by $a$ & \ref{s:b_vertical}, \ref{s:rot}, \ref{s:trap}, \ref{f:structure}\\

\textbf{C} & adjusted matrix for minor compound layer ($f$)& $ \sum_{i = 0}^{k-1} \text{\textbf{B}}_i + \text{\textbf{B}}_{\frac{180\degree} {\varphi_0}}^{\textbf{$\dagger$}}$& \ref{s:conn}, \ref{s:off}\\
\textbf{C$^\dagger$},$\text{\textbf{C}}_f^{\textbf {$\dagger$}}$ & unadjusted matrix for minor compound layer & $ \sum_{k}$ $\text{\textbf{B}}_k^{\textbf{$\dagger$}}$ & \ref{s:rot}\\

\textbf{D} & first part of \textbf{C}& \textbf{B}$_0$ $+$ $\text{\textbf{B}}_1^{\textbf{$\dagger$}}$ & \ref{s:off}\\
%
\textbf{F} & last part of \textbf{C}&$\text{\textbf{B}}_2^{\textbf{$\dagger$}}$ & \ref{s:off}\\
%
\textbf{G}, \textbf{G}$_v$ & adjusted matrix for \textit{sub block d}& 2 by ($2* \frac{w_q}{H_q} + 1 +$ matrix ($2$ by $g$)& \ref {s:sub}\\
$\text{\textbf{G}}_v^{\textbf{$\dagger$}}$ & unadjusted matrix for \textit{sub block d}& 2 by $2* \frac{w_q}{H_q} + 1$& \ref {s:sub}\\
%
$H$,$H_q$ & \textit{Horizontal spacing} & user specified & \ref{s:b_a}, \ref{s:increase}\\
$H_{q_d}$ & \textit{Horizontal spacing} of \textit{sub block}& user specified & \ref{s:sub}\\
%
\textbf{J} & matrix for total scaffold geometry & $2$ by $j$ & \ref{s:b_a}\\
\textbf{J}$_{pyramid}$ & matrix for total scaffold geometry (pyramid option) & $2$ by $j_{pyramid}$ & \ref{s:length}\\
%
\textbf{M} & matrix for major compound layer& $\sum_{f}$ \textbf{C$_f$} & \ref{s:off}\\
%
%
$P$ & intersection point & (\textbf{-} $\infty$, $\infty$] &\ref{s:length}\\
$P_{purple}$ & intersection point between purple scaffold line and polygon side line ($y_{poly}$)& \lbrack \textbf{-} $\frac{w}{2}$, $\frac{w}{2}$] &\ref{s:length}\\
$P_{zero}$ & intersection point between purple scaffold line and x axis& (\textbf{-} $\frac{w}{2}$, $\frac{w}{2}$) &\ref{s:length}\\
%
%
\textbf{R$_k$} & rotation matrix & {$R_k = \begin{bmatrix} \cos(\varphi_k) & \sin(\varphi_k)\\ - \sin(\varphi_k) & \cos(\varphi_k) \end{bmatrix} $} & \ref{s:rot}\\
%
%
$\overline{R}^2$ & modification due to Theil of R$^2$ that adjusts for the number of explanatory terms in a model, [wiki]& (0,1) & \ref{s:increase}\\
%
%
$V$ & \textit{Vertical spacing} & user specified & \ref{s:b_a}\\

\end{mpsupertabular}
\egroup


\subsection*{Lower case}

\bgroup
\setlength{\extrarowheight}{4pt} %optimal 8
\tablefirsthead{%
Symbol & Meaning & size/\,value/\,range & section(s)\\
\hline}
\tablehead{%
\multicolumn{4}{l}{\small\sl continued from previous page}\\
\multicolumn{4}{l}{}\\
Symbol & Meaning & size/\,value/\,range & section(s)\\
\hline}
\tabletail{%
\multicolumn{4}{l}{}\\
\multicolumn{4}{r}{\small\sl continued on next page}\\}
\tablelasttail{}
\begin{mpsupertabular}{p{2cm}|p{9cm}|p{7cm}|p{2.1c m}}

$a$ & rows of \textbf{A}& $2* \frac{w}{H} + 1$ & \ref{s:b_vertical}\\
%
$b$,$b_q$ & \textit{offset number} & user specified & \ref{s:b_a}\\
%
$c$ & number of corners of the polygon & $\frac{360\degree}{\varphi_0}$ & \ref{s:length}\\
%
%
$d$ &specific \textit{sub block} & [1,s] & \ref{s:sub}\\
$d_{useful}$ & distance between $P_{purple}$ and $P_{zero}$ & (0,$\infty$) & \ref{s:length}\\
%
%
$f$ & index of current minor compound layer & [1,r]& \ref{s:off}\\
%
$g$ & amount of extension to $j$ & [0, 2] & \ref{s:b_a}\\
%
%$h$
$i$ & indexed variable & & \ref{s:b_vertical}, \ref{s:conn}\\
%
$j$ & rows of \textbf{J} & $ \sum_{q} (2* \frac{w_q}{H_q} + 1 + g)*(\frac{180\degree} {\varphi_{q0}})* r_q + g$ & \ref{s:b_a}\\
$j_{pyramid}$ & rows of \textbf{J}$_{pyramid}$ & $p + u * lines_{sum_{odd}}$ & \ref{s:length}\\
$k$ & possible angles & [$0 , (\frac{180\degree}{\varphi_0} -1)] $ & \ref{s:rot}\\
%
$l_{poly}$ & polygon side length & $w * \tan\left( \frac{180\degree}{c}\right)$ & \ref{s:length}\\
$l_{ratio}$ & ``useful" length ratio & (0,1) & \ref{s:length}\\
$l_{scaff}$ & scaffold length& user specified & \ref{s:b_a}\\
$l_{total}$ & total line length of scaffold & $\sum_{i = 2}^{j_{pyramid}} \sqrt{(x_i - x_{i -1})^2 + (y_i - y_{i -1})^2}$ & \ref{s:length}\\
%
$l_{useful}$ & ``useful" line length & $2 * l_{useful_{half}}$ &\ref{s:length}\\
$ l_{useful_{half}}$ & half of ``useful" line length & $\sum d_{useful}$ &\ref{s:length}\\
$l_x$ & x interval between the centre of the \textit{sub block} and the origin & [0, $\left(\frac{w_{q_{tot}}}{2} - \frac{w_{q_{d}}}{2}\right)$] & \ref{s:sub}\\
$l_{x_{d,max}}$ & maximum possible interval from origin & $\left(\frac{w_{q_{tot}}}{2} - \frac{w_{q_{d}}}{2}\right)$& \ref{s:sub}\\
%
$lines_{left}$ & additional lines to the left of block & $round\ towards\ zero\ (\frac{u}{b+1})$ & \ref{s:trap}\\
$lines_{left_{even}}$ & even number of additional lines of left block & $lines_{left}$ (+1), if necessary& \ref{s:sub}\\
%
$lines_{right}$ & additional lines to the right of block & $ u - 1 - round\ towards\ zero\ (\frac{u}{b+1})$ & \ref{s:trap}\\
$lines_{right_{even}}$ & even number of additional lines of right block &$lines_{right}$ (+1), if necessary& \ref{s:sub}\\
%
$lines_{sum}$ & additional lines & $lines_{left} + lines_{right} = u -1$&\ref{s:trap}\\
$lines_{sum_{even}}$ & even number of additional lines & $lines_{sum}$ (+1), if necessary & \ref{s:trap}\\
%
$m_{poly}$ & slope of polygon side line & (\textbf{-} $\infty$,$\infty$) & \ref{s:length}\\
$m_{scaf}$& slope of scaffold line & (\textbf{-} $\infty$,$\infty$) & \ref{s:length}\\
%
$n_d$ & repition number of certain \textit{sub block} & [1,$\infty$) & \ref{s:sub}\\
$n_{poly} $ & y-intersept of polygon side line & (\textbf{-} $\infty$,$\infty$) & \ref{s:length}\\
$n_{scaf}$ & y-intersept of scaffold line & (\textbf{-} $\infty$,$\infty$) & \ref{s:length}\\
%
$o$ & \textit{offset} of minor compound layers & $\frac{H}{b + 1}$ & \ref{s:off}\\
%
$p$ & probability of obtaining a test statistic at least as extreme as the one that was actually observed, [wiki] & (0,1) & \ref{s:increase}\\
%
$q$ & amount of major compound layers & user specified & \ref{s:b_a}\\
%
%
%%$r_{poly}$ & circumradius of polygon & $\frac{l_{poly} } {2 * \sin(\frac{\pi}{c})}$ & \ref{s:length}\\
%
%
$r$,$r_q$ & amount of minor compound layers & user specified & \ref{s:b_a}, \ref{s:increase}\\
$s$ & amount of \textit{sub blocks} & user specified & \ref{s:sub}\\
$t$ & border variable for repetition of \textit{sub blocks} & [1,$s$]& \ref{s:sub}\\
%
$u$ & total number of layers & $\sum_q r_q$ & \ref{s:trap}\\
%
$v$ & current \textit{sub block} for total layer & [1,$\sum_d n_d$] & \ref{s:sub} \\
%
$w$,$w_q$ & width of block & user specified & \ref{s:b_a}, \ref{s:increase}\\
$w_{new}$& new width of the block to achieve a uniform scaffold with specified width & $w + (r-2)*H$ & \ref{s:increase} \\
$w_{q_d}$ & width of \textit{sub block} & user specified & \ref{s:sub}\\
$w_{q_{tot}}$ & width of block = \textit{layer width} & user specified & \ref{s:sub}\\
%
$x$ & x coordinate & (\textbf{-} $\infty$, $\infty$) & \ref{s:b_a}\\
%
$x_{add}$ & x value of additional point & [\textbf{-} $x_{max}$, $x_{max}$]& \ref{s:conn}\\
$x_{add_{new}} $& x value of new additional point & [\textbf{-} $x_{max}$, $x_{max}$]& \ref{s:conn}\\
$x_{end_{old}}$ & x value of last coordinates of old block & [\textbf{-} $x_{max}$, $x_{max}$] & \ref{s:conn}\\
$x_{max}$ & x value of scaffold boundary& $\frac{\sqrt{(h + (\frac{w}{H}+2) * V)^2 + w^2)}}{2}$ & \ref{s:conn}\\
$x_{max_{extended}}$ & extended scaffold boundary due to \textit{sub blocks} &$ x_{max_{d}} + l_{x_{d,max}}$& \ref{s:sub}\\
$ x_{max_{d}}$&diagonal value & $\frac{\sqrt{(h + (\frac{w_{q_d}}{H}+2) * V)^2 + w_{q_d}^2)}}{2} $ & \ref{s:sub}\\
%
$y$ & y coordinate & (\textbf{-} $\infty$, $\infty$) & \ref{s:b_a}\\
%
$y_{add}$ & y value of additional point & [\textbf{-} $y_{max}$, $y_{max}$] & \ref{s:conn}\\
$y_{add_{new}}$ & y value of new additional point & [\textbf{-} $y_{max}$, $y_{max}$] & \ref{s:conn}\\
$y_{end_{old}}$ & y value of last coordinates of old block & [\textbf{-} $y_{max}$, $y_{max}$] & \ref{s:conn}\\
$y_{max}$ & y value of scaffold boundary & $\frac{\sqrt{(h + (\frac{w}{H}+2) * V)^2 + w^2)}}{2}$ & \ref{s:conn}\\
$y_{max_{extended}}$ & extended scaffold boundary due to \textit{sub blocks} &$x_{max_{extended}}$& \ref{s:sub}\\
%
$y_{poly}$ & line equation for polygon side & $m_{poly} *x + n_{poly}$ & \ref{s:length}\\
$y_{scaf}$ & line equation for scaffold line &$ m_{scaf} *x + n_{scaf}$ & \ref{s:length}\\
$z$ & repetition of certain \textit{sub block}& [1, $\infty$) & \ref{s:sub}\\

\end{mpsupertabular}
\egroup
{
\subsection*{Greek symbols}


\bgroup
\setlength{\extrarowheight}{6pt} %optimal 8
\tablefirsthead{%
Symbol & Meaning & size/\,value/\,range & section(s)\\
\hline}
\tablehead{%
\multicolumn{4}{l}{\small\sl continued from previous page}\\
\multicolumn{4}{l}{}\\
Symbol & Meaning & size/\,value/\,range & section(s)\\
\hline}
\tabletail{%
\multicolumn{4}{l}{}\\
\multicolumn{4}{r}{\small\sl continued on next page}\\}
\tablelasttail{}
\begin{mpsupertabular}{p{2cm}|p{9cm}|p{7cm}|p{2.1c m}}

$\mathbf{\Phi}$ & vector of angles & $1$ by $k$ & \ref{s:rot}\\
$\varphi_{0}$,$\varphi_{q0}$ & \textit{rotation angle} & user specified: (0,90] & \ref{s:b_a}\\
$\varphi_k$ & angle to rotate block $\frac{180\degree}{(k+1)*\varphi_0}$ & \textbf{-} $\frac{180\degree}{(k+1)*\varphi_0}$ & \ref{s:rot}\\
\end{mpsupertabular}
\egroup}
\end{landscape}

\end{document}

Ich weiss, es ist etwas laenger, aber die Tabelle ist nun mal so lang.

Und hier der Header:

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LuPi
20-04-2012, 15:54
Die Antwort ist relativ einfach: Deine Tabelle ist zu groß für die Seite.
Nimm versuchsweise einige Zeilen heraus (um den Effekt zu prüfen, ruhig
die Hälfte) und Du wirst sehen, dass die "Zusatzseite" verschwindet.

Zu Deinem Beispiel: Du machst es den Hilfswilligen nicht gerade einfach.
Bitte das Beispiel (a) nicht noch zerhacken (erst main part, dann preamble),
(b) in die Code-Umgebung [#] packen und (c) entrümpeln! Mindestens 90 %
des Beispiels kannst Du rausschmeißen, ohne den gewünschten Effekt zu
stören.