如何移动页面左下角旋转 90 度的文本?

如何移动页面左下角旋转 90 度的文本?

我希望文本位于页面的左下角。但文本却位于页面的顶部。我尝试将其向下移动,我删除了 \centering,还尝试了其他选项,我设置了 \hspace*{3 cm},但没有任何变化。你能帮助我吗?代码如下:

\documentclass[smallextended]{svjour3}       % onecolumn (second format)
\usepackage[paperwidth=165mm, paperheight=238mm, left=2.5cm,right=2cm,top=2cm,bottom=2cm]{geometry}

\smartqed  
\usepackage[graphicx]{realboxes}
\usepackage{graphicx}
\usepackage{epstopdf}
\usepackage{lineno}
\linenumbers
\usepackage{amsmath}
\usepackage{amssymb}
\usepackage[justification=centering]{caption}

\usepackage{pdflscape}
\usepackage{nomencl}
\makenomenclature

\usepackage{etoolbox}


\begin{document}
\vspace{1em}
    \par\noindent\begin{minipage}{\linewidth}


      %  \centering
        \rotatebox{90}{
            \begin{minipage}{0.8\textheight}
               \hspace*{3 cm}
                \vspace*{\fill}
                \footnotesize

\section{APPENDIX  }
\label{sec:5}
Here below the matrix when Dirichlet and Neumann boundary condition are set. H is a term included in the convective matrix coming from the convective boundary condition. 
\begin{equation}
H=\frac{ h \cdot \Delta \theta }{\rho \cdot c \cdot \Delta x}
\end{equation}

\nomenclature[A]{$b,g$}{ Fourier numbers for different materials \nomunit{}}


                \[
\begin{bmatrix}
T_{1} \\
T_{2} \\
T_{3} \\
... \\
T_{n-1}  \\
T_{n}
\end{bmatrix}^{v+1}
\quad
=
\begin{bmatrix} 
1+2b+2H  & -2b  &   0  &  0   & 0    &  0   \\
-b       & 1+2b &  -b  &  0   & 0    &  0   \\
0        &  -b  & 1+2b &  -b  & 0    &  0   \\
...      & ...  & ...  & ...  & ...  & ...  \\
0        &   0  &  0   &  -b  & 1+2b &  -b  \\
0        &   0  &  0   &   0  &  0   &  1
\end{bmatrix}^{inv}
\quad
\begin{bmatrix} 
T_{1} \\
T_{2} \\
T_{3} \\
...   \\
T_{n-1}\\
T_{n}
\end{bmatrix}^{v}
\quad
+
\begin{bmatrix} 
1+2b+2H  & -2b  &   0  &  0   & 0    &  0  \\
-b       & 1+2b &  -b  &  0   & 0    &  0  \\
0        &  -b  & 1+2b &  -b  & 0    &  0  \\
...      & ...  & ...  & ...  & ...  & ... \\
0        &   0  &  0   &  -g  & 1+2g &  -g  \\
0        &   0  &  0   &   0  &  0   &   1
\end{bmatrix}^{inv}
\quad
\begin{bmatrix} 
\frac{2h\Delta \theta Tair}{\rho c \Delta x} \\
0 \\
0 \\
...   \\
0\\
60
\end{bmatrix}^{v}
\]
                \vspace*{\fill}
            \end{minipage}
        }
        %\captionof{figure}{Some Matrix}
        \label{eq:somematrix}
    \end{minipage}
%\end{flushleft}

\end{document}

在此处输入图片描述

答案1

我必须进行一些替换才能让它在我的系统上运行。首先,你的矩阵方程太宽,甚至无法在横向显示,所以我把它分成两行。其次,如果你想让旋转后的框位于左下角,你需要\vspace*{\fill)在 之前添加\rotatebox。(顺便说一句,\vspace*{fill}在普通的迷你页面中什么也不做。)最后,我添加了一个\fbox只是为了显示边框。

\documentclass[smallextended]{article}       % onecolumn (second format)
\usepackage[paperwidth=165mm, paperheight=238mm, left=2.5cm,right=2cm,top=2cm,bottom=2cm]{geometry}

%\smartqed  
\usepackage[graphicx]{realboxes}
\usepackage{graphicx}
\usepackage{epstopdf}
\usepackage{lineno}
\linenumbers
\usepackage{amsmath}
\usepackage{amssymb}
\usepackage[justification=centering]{caption}

\usepackage{pdflscape}
\usepackage{nomencl}
\makenomenclature

\usepackage{etoolbox}


\begin{document}
\fboxsep=0pt
\vspace*{\fill}
    \par\noindent\begin{minipage}{\linewidth}


      %  \centering
        \rotatebox{90}{\fbox{%
            \begin{minipage}{0.8\textheight}
               \hspace*{3 cm}
                \vspace*{\fill}
                \footnotesize

\section{APPENDIX  }
\label{sec:5}
Here below the matrix when Dirichlet and Neumann boundary condition are set. H is a term included in the convective matrix coming from the convective boundary condition. 
\begin{equation}
H=\frac{ h \cdot \Delta \theta }{\rho \cdot c \cdot \Delta x}
\end{equation}

\nomenclature[A]{$b,g$}{ Fourier numbers for different materials \nomunit{}}

\begin{align*}
\begin{bmatrix}
T_{1} \\
T_{2} \\
T_{3} \\
... \\
T_{n-1}  \\
T_{n}
\end{bmatrix}^{v+1}
\quad
=&
\begin{bmatrix} 
1+2b+2H  & -2b  &   0  &  0   & 0    &  0   \\
-b       & 1+2b &  -b  &  0   & 0    &  0   \\
0        &  -b  & 1+2b &  -b  & 0    &  0   \\
...      & ...  & ...  & ...  & ...  & ...  \\
0        &   0  &  0   &  -b  & 1+2b &  -b  \\
0        &   0  &  0   &   0  &  0   &  1
\end{bmatrix}^{inv}
\quad
\begin{bmatrix} 
T_{1} \\
T_{2} \\
T_{3} \\
...   \\
T_{n-1}\\
T_{n}
\end{bmatrix}^{v}
\\ &\quad+
\begin{bmatrix} 
1+2b+2H  & -2b  &   0  &  0   & 0    &  0  \\
-b       & 1+2b &  -b  &  0   & 0    &  0  \\
0        &  -b  & 1+2b &  -b  & 0    &  0  \\
...      & ...  & ...  & ...  & ...  & ... \\
0        &   0  &  0   &  -g  & 1+2g &  -g  \\
0        &   0  &  0   &   0  &  0   &   1
\end{bmatrix}^{inv}
\quad
\begin{bmatrix} 
\frac{2h\Delta \theta Tair}{\rho c \Delta x} \\
0 \\
0 \\
...   \\
0\\
60
\end{bmatrix}^{v}
\end{align*}
                %\vspace*{\fill}
            \end{minipage}
        }}
        %\captionof{figure}{Some Matrix}
        \label{eq:somematrix}
    \end{minipage}
%\end{flushleft}

\end{document}

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