表内のテキストの位置

表が複数の段落とテキストと画像の組み合わせで構成されている場合、デフォルトの配置は常に各セルの最初の最上部のベースラインに対して行われます。テキストの場合は下の文字です。画像の場合は下端です。pfgplotsまた、描画のベースラインは南西または左側の下隅に保持されます。これが、最初の列のテキストが軸の下部に配置される理由です。

1 つの方法は、各軸をオプション設定として使用しanchor、ポイントを中央などに変更することです。もう 1 つの方法はbaseline、全体をtikzpicture軸の中心に設定することです。どちらの方法でも、最初のセルのテキストが配置されるデフォルトのベースラインが移動します。セルにはキャプションも含まれているため、これはセルの中心ではないことに注意してください。セルの中央を完全に揃えたい場合は、他のソリューションを使用してください。

ベースラインを軸の中心に移動するには、プリアンブルに次のコードを追加します。

\tikzset{
    baseline={([yshift=-0.7ex]current axis.center)},
}

yshiftは、さらなる調整のためのオプションの引数です。ここでは、単に文字の高さを補正するだけです。

完全なコード:

\documentclass[10pt,letterpaper]{article}
\usepackage[margin=1in]{geometry}
\usepackage{tikz}
\usepackage{pgfplots}
\pgfplotsset{compat=1.11}

\usepackage{tabularx}
\newcolumntype{C}{>{\centering\arraybackslash}X}

\tikzset{
    baseline={([yshift=-0.7ex]current axis.center)},
}

\pgfplotsset{
    width=1.8\linewidth,
    scale only axis,
    axis lines = middle,
    ticks=none,
    xlabel={$x$},
    ylabel={$y$},
    xlabel style={right},
    ylabel style={above},
    xmin=-4,
    xmax=4,
    %
    every axis plot post/.append style={ultra thick, smooth},
}


\begin{document}
\begin{tabularx}{\linewidth}{|C|C|C|}
    \hline
    & $n$~\textbf{gerade} & $n$~\textbf{ungerade} \\
    \hline
    $a>0$
    & \begin{tikzpicture}
          \begin{axis}[ymin=-4, ymax=4]
              \addplot [domain=-3:3] {x^2};% node [pos=0.7, below right] {\footnotesize{$x^2$}};
              \node[color=black, font=\footnotesize] at (axis cs: 2.2,3) {$x^2$}; %node [pos=0.1, below right] {$x^2$};
          \end{axis}
          %\node at (0.5,-0.2) {$\alpha>0$};
      \end{tikzpicture}
    \par\medskip
    \par Der Graph der Potenzfunktion verl\"auft von $+\infty$ nach $+\infty$
    & \begin{tikzpicture}
          \begin{axis}[ymin=-4, ymax=4]
              \addplot [domain=-3:3] {x^3}; %node [pos=0.8, above right] {\footnotesize{$x^3$}};
              \node[color=black, font=\footnotesize] at (axis cs: 2.2,3) {$x^3$}; %node [pos=0.1, below right] {$x^2$};
          \end{axis}
          %\node at (0.5,-0.2) {{$\alpha<0$}};
      \end{tikzpicture} 
      \par\medskip   
      \par Der Graph der Potenzfunktion verl\"auft von $-\infty$ nach $+\infty$ \\
    \hline
    $a < 0$
    & \begin{tikzpicture}
          \begin{axis}[ymin=-4, ymax=4]
              \addplot [domain=-3:3] {-x^2} node [pos=0.9, below right] {$f(x)=-x^2$};
              \node[color=black, font=\footnotesize] at (axis cs: 2.5,-3) {$-x^2$}; %node [pos=0.1, below right] {$x^2$};
          \end{axis}
          %\node at (0.5,-0.2) {$\alpha>0$};
      \end{tikzpicture} 
      \par \medskip
      \par Der Graph der Potenzfunktion verl\"auft von $-\infty$ nach $-\infty$
    & \begin{tikzpicture}
          \begin{axis}[ymin=-4, ymax=4]
              \addplot [domain=-3:3] {-x^3} node [pos=0.9, above right] {$f(x)=-x^3$};
              \node[color=black, font=\footnotesize] at (axis cs: 2.3,-3) {$-x^3$}; %node [pos=0.1, below right] {$x^2$};
          \end{axis}
          %\node at (0.5,-0.2) {{$\alpha<0$}};
      \end{tikzpicture} 
      \par\medskip
      \par Der Graph der Potenzfunktion verl\"auft von $+\infty$ nach $-\infty$ \\
      \hline
    $|a| > 1$
    & \begin{tikzpicture}
           \begin{axis}[ymin=-4, ymax=4]
               \addplot [domain=-3:3] {x^2};
               \node[color=black, font=\footnotesize] at (axis cs: 1.5,1) {$x^2$}; %node [pos=0.1, below right] {$x^2$};
               \addplot [color=red, domain=-4:4] {2*x^2} node [pos=0.9, below right] {$2x^2$};
               \draw [-latex,color=red] (2,2) to (1,2);
               \node at (2.5,2) {\small \textcolor{red}{$2x^2$}};
           \end{axis}
       %\node at (0.5,-0.2) {$\alpha>0$};
      \end{tikzpicture} \medskip 
    & \begin{tikzpicture}
          \begin{axis}[ymin=-4, ymax=4]
              \addplot [domain=-3:3] {x^3};% node [pos=0.9, above right] {$x^3$};
              \node[color=black, font=\footnotesize] at (axis cs: 1.5,1) {$x^3$}; %node [pos=0.1, below right] {$x^2$};
              \addplot [color=red, domain=-3:3] {2*x^3};% node [pos=0.9, above right] {$x^3$};
              \draw [-latex,color=red] (2.2,3.456) to (1.2,3.456);
              \node at (2.7,3.456) {\small \textcolor{red}{$2x^3$}};
          \end{axis}
          %\node at (0.5,-0.2) {{$\alpha<0$}};
      \end{tikzpicture} \medskip \\ 
    & \multicolumn{2}{c|}{ Dehnung in $y$-Richtung} \\
    \hline
    $|a| < 1$
    & \begin{tikzpicture}
          \begin{axis}[ymin=-4, ymax=4]
              \addplot [domain=-3:3] {x^2};
              \draw [-latex] (2.5,2.25) to (1.5,2.25);
              \node at (2.85,2.25) {\small $x^2$};
              \addplot [color=red, domain=-4:4] {(1/2)*x^2};
              \node[color=red, font=\footnotesize] at (axis cs: 2,0.5) {$\frac{1}{2}x^2$}; %node [pos=0.1, below right] {$x^2$};
          \end{axis}
          %\node at (0.5,-0.2) {$\alpha>0$};
      \end{tikzpicture}
    & \begin{tikzpicture}
          \begin{axis}[ymin=-4, ymax=4]
              \addplot [domain=-3:3] {x^3};
              \draw [-latex] (2.5,3.375) to (1.5,3.375);
              \node at (2.85,3.375) {\small $x^2$};
              \addplot [color=red, domain=-3:3] {(1/2)*x^3};% node [pos=0.9, above right] {$x^3$};
              \node[color=red, font=\footnotesize] at (axis cs: 2.1,1.5) {$\frac{1}{2}x^3$}; %node [pos=0.1, below right] {$x^2$};
          \end{axis}
          %\node at (0.5,-0.2) {{$\alpha<0$}};
      \end{tikzpicture} \medskip \\ 
    & \multicolumn{2}{c|}{ Stauchung in $y$-Richtung}\\
    \hline
\end{tabularx}
\end{document}

命令を実行する必要があります

\renewcommand{\tabularxcolumn}[1]{m{#1}}

パッケージをロードした後、プリアンブルに を追加しますtabularx。(デフォルト設定は です\newcommand{\tabularxcolumn}[1]{p{#1}}。)タブラックス詳細についてはパッケージをご覧ください。

\documentclass[10pt,letterpaper]{article}
\usepackage[margin=1in]{geometry}
\usepackage[T1]{fontenc}
\usepackage{tikz,pgfplots}
\pgfplotsset{compat=1.11}
\usepackage[ngerman]{babel}
\usepackage{tabularx,ragged2e}
\newcolumntype{C}{>{\centering\arraybackslash}X}
\renewcommand{\tabularxcolumn}[1]{m{#1}}

% -------------------
% Content
% -------------------
\begin{document}

\begin{center}

\pgfplotsset{width=0.8\linewidth,
             scale only axis,
             axis lines = middle,
             ticks=none,
             xlabel={$x$},
             ylabel={$y$},
             xlabel style={right},
             ylabel style={above},
             xmin=-4,
             xmax=4,
             %
             every axis plot post/.append style={ultra thick, smooth},
            }
\begin{tabularx}{\linewidth}{|wc{1.5in}|C|C|}
\hline
& $n$ gerade & $n$ ungerade \\
\hline

$a>0$ & 
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {x^2};% node [pos=0.7, below right] {\footnotesize{$x^2$}};
\node[color=black, font=\footnotesize] at (axis cs: 2.2,3) {$x^2$}; %node [pos=0.1, below right] {$x^2$};
\end{axis}
%\node at (0.5,-0.2) {$\alpha>0$};
\end{tikzpicture} 

\medskip

Der Graph der Potenzfunktion verläuft von $+\infty$ nach $+\infty$ 
& 
\begin{tikzpicture}
    \begin{axis}[ymin=-4, ymax=4]
    \addplot [domain=-3:3] {x^3}; %node [pos=0.8, above right] {\footnotesize{$x^3$}};
\node[color=black, font=\footnotesize] at (axis cs: 2.2,3) {$x^3$}; %node [pos=0.1, below right] {$x^2$};
    \end{axis}
    %\node at (0.5,-0.2) {{$\alpha<0$}};
    \end{tikzpicture}
     
\medskip

Der Graph der Potenzfunktion verläuft von $-\infty$ nach $+\infty$\\
\hline

$a < 0$  & 
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {-x^2} node [pos=0.9, below right] {$f(x)=-x^2$};
\node[color=black, font=\footnotesize] at (axis cs: 2.5,-3) {$-x^2$}; %node [pos=0.1, below right] {$x^2$};
\end{axis}
%\node at (0.5,-0.2) {$\alpha>0$};
\end{tikzpicture} 

\medskip

Der Graph der Potenzfunktion verläuft von $-\infty$ nach $-\infty$ 
& 
\begin{tikzpicture}
    \begin{axis}[ymin=-4, ymax=4]
    \addplot [domain=-3:3] {-x^3} node [pos=0.9, above right] {$f(x)=-x^3$};
\node[color=black, font=\footnotesize] at (axis cs: 2.3,-3) {$-x^3$}; %node [pos=0.1, below right] {$x^2$};
    \end{axis}
    %\node at (0.5,-0.2) {{$\alpha<0$}};
\end{tikzpicture} 
\medskip

Der Graph der Potenzfunktion verläuft von $+\infty$ nach $-\infty$\\
\hline 

$|a| > 1$  
& 
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {x^2};
\node[color=black, font=\footnotesize] at (axis cs: 1.5,1) {$x^2$}; %node [pos=0.1, below right] {$x^2$};
\addplot [color=red, domain=-4:4] {2*x^2} node [pos=0.9, below right] {$2x^2$};
\draw [-latex,color=red] (2,2) to (1,2);
\node at (2.5,2) {\small \textcolor{red}{$2x^2$}};
\end{axis}
%\node at (0.5,-0.2) {$\alpha>0$};
\end{tikzpicture} 

%\medskip  
& 
\begin{tikzpicture}
    \begin{axis}[ymin=-4, ymax=4]
    \addplot [domain=-3:3] {x^3};% node [pos=0.9, above right] {$x^3$};
\node[color=black, font=\footnotesize] at (axis cs: 1.5,1) {$x^3$}; %node [pos=0.1, below right] {$x^2$};
    \addplot [color=red, domain=-3:3] {2*x^3};% node [pos=0.9, above right] {$x^3$};
\draw [-latex,color=red] (2.2,3.456) to (1.2,3.456);
\node at (2.7,3.456) {\small \textcolor{red}{$2x^3$}};
    \end{axis}
    %\node at (0.5,-0.2) {{$\alpha<0$}};
    \end{tikzpicture} 
    
%\medskip 
\\ 
& \multicolumn{2}{c|}{ Dehnung in $y$-Richtung}\\
\hline

$|a| < 1$  
& 
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {x^2};
\draw [-latex] (2.5,2.25) to (1.5,2.25);
\node at (2.85,2.25) {\small $x^2$};
\addplot [color=red, domain=-4:4] {(1/2)*x^2};
\node[color=red, font=\footnotesize] at (axis cs: 2,0.5) {$\frac{1}{2}x^2$}; %node [pos=0.1, below right] {$x^2$};
\end{axis}
%\node at (0.5,-0.2) {$\alpha>0$};
\end{tikzpicture} 

\medskip  

& 

\begin{tikzpicture}
    \begin{axis}[ymin=-4, ymax=4]
    \addplot [domain=-3:3] {x^3};
\draw [-latex] (2.5,3.375) to (1.5,3.375);
\node at (2.85,3.375) {\small $x^2$};
    \addplot [color=red, domain=-3:3] {(1/2)*x^3};% node [pos=0.9, above right] {$x^3$};
\node[color=red, font=\footnotesize] at (axis cs: 2.1,1.5) {$\frac{1}{2}x^3$}; %node [pos=0.1, below right] {$x^2$};
    \end{axis}
    %\node at (0.5,-0.2) {{$\alpha<0$}};
\end{tikzpicture} 

\medskip \\ 
&  \multicolumn{2}{c|}{ Stauchung in $y$-Richtung}\\
\hline

\end{tabularx}
\end{center}

\end{document}

答えはすでに@Micoによって出されていますが、強力なtabularray

\documentclass[10pt,letterpaper]{article}
\usepackage[lmargin=1in,rmargin=1in,tmargin=1in,bmargin=1in]{geometry}
\usepackage{tikz}
\usepackage{pgfplots}
\usepackage{graphicx} 
\usepackage{tabularray}
\UseTblrLibrary{booktabs}


    
\pgfplotsset{
        compat=1.11,
        width=0.8\linewidth,
        scale only axis,
        axis lines = middle,
        ticks=none,
        xlabel={$x$},
        ylabel={$y$},
        xlabel style={right},
        ylabel style={above},
        xmin=-4,
        xmax=4,
        every axis plot post/.append style={ultra thick, smooth},
    }

\begin{filecontents*}{tikzPicture1.tex}
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {x^2};
\node[color=black, font=\footnotesize] at (axis cs: 2.2,3) {$x^2$};
\end{axis}
\end{tikzpicture}
\end{filecontents*}

\begin{filecontents*}{tikzPicture2.tex}
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {x^3};
\node[color=black, font=\footnotesize] at (axis cs: 2.2,3) {$x^3$};
\end{axis}
\end{tikzpicture}
\end{filecontents*}

\begin{filecontents*}{tikzPicture3.tex}
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {-x^2} node [pos=0.9, below right] {$f(x)=-x^2$};
\node[color=black, font=\footnotesize] at (axis cs: 2.5,-3) {$-x^2$};
\end{axis}
\end{tikzpicture}
\end{filecontents*}

\begin{filecontents*}{tikzPicture4.tex}
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {-x^3} node [pos=0.9, above right] {$f(x)=-x^3$};
\node[color=black, font=\footnotesize] at (axis cs: 2.3,-3) {$-x^3$};
\end{axis}
\end{tikzpicture}
\end{filecontents*}

\begin{filecontents*}{tikzPicture5.tex}
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {x^2};
\addplot [color=red, domain=-4:4] {2*x^2} node [pos=0.9, below right] {$2x^2$};
\draw [-latex,color=red] (2,2) to (1,2);
\node at (2.5,2) {\small \textcolor{red}{$2x^2$}};
\node[color=black, font=\footnotesize] at (axis cs: 1.5,1) {$x^2$};
\end{axis}
\end{tikzpicture}
\end{filecontents*}

\begin{filecontents*}{tikzPicture6.tex}
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {x^3};
\addplot [color=red, domain=-3:3] {2*x^3};
\draw [-latex,color=red] (2.2,3.456) to (1.2,3.456);
\node at (2.7,3.456) {\small \textcolor{red}{$2x^3$}};
\node[color=black, font=\footnotesize] at (axis cs: 1.5,1) {$x^3$};
\end{axis}
\end{tikzpicture}
\end{filecontents*}

\begin{filecontents*}{tikzPicture7.tex}
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {x^2};
\addplot [color=red, domain=-4:4] {(1/2)*x^2};
\draw [-latex] (2.5,2.25) to (1.5,2.25);
\node[color=red, font=\footnotesize] at (axis cs: 2,0.5) {$\frac{1/2}x^2$};
\node at (2.85,2.25) {\small $x^2$};
\end{axis}
\end{tikzpicture}
\end{filecontents*}

\begin{filecontents*}{tikzPicture8.tex}
\begin{tikzpicture}
\begin{axis}[ymin=-4, ymax=4]
\addplot [domain=-3:3] {x^3};
\draw [-latex] (2.5,3.375) to (1.5,3.375);
\node at (2.85,3.375) {\small $x^3$};
\addplot [color=red, domain=-3:3] {(1/2)*x^3};
\node[color=red, font=\footnotesize] at (axis cs: 2.1,1.5) {$\frac{1/2}x^3$};
\end{axis}
\end{tikzpicture}
\end{filecontents*}
    
\newcommand{\myimage}[1]{\input{tikzPicture#1}}
    
\begin{document}
    
\begin{tblr}{
        colspec = {X[c,m]X[c,m]X[c,m]},
        width = \linewidth,
        row{1} = {font=\bfseries},
        vlines,
        hline{1,2,4,6,8,10} = {solid},
    }
            
    & {$n$ gerade} & {$n$ ungerade} \\
    \SetCell[r=2]{c} {$a > 0$}
    & \myimage{1} 
    & \myimage{2} 
    \\    
    & Der Graph der Potenzfunktion verl\"auft von $+\infty$ nach $+\infty$
    & Der Graph der Potenzfunktion verl\"auft von $-\infty$ nach $+\infty$ 
    \\
    \SetCell[r=2]{c} {$a < 0$}
    & \myimage{3} 
    & \myimage{4} 
    \\
    & Der Graph der Potenzfunktion verl\"auft von $-\infty$ nach $-\infty$
    & Der Graph der Potenzfunktion verl\"auft von $+\infty$ nach $-\infty$ 
    \\
    \SetCell[r=2]{c} {$|a| > 1$}
    & \myimage{5}
    & \myimage{6}
    \\
    & \SetCell[c=2]{c} Dehnung in $y$-Richtung \\
    \SetCell[r=2]{c} {$|a| < 1$}
    & \myimage{7}
    & \myimage{8} 
    \\
    & \SetCell[c=2]{c} Stauchung in $y$-Richtung \\
\end{tblr}
    
\end{document} 

シンプルなMWEの場合

\documentclass[10pt,letterpaper]{article}
\usepackage[lmargin=1in,rmargin=1in,tmargin=1in,bmargin=1in]{geometry}
\usepackage{tikz}
\usepackage{pgfplots}
\usepackage{graphicx} 
\usepackage{tabularray}
\UseTblrLibrary{booktabs}

\pgfplotsset{
    compat=1.11,
    width=0.8\linewidth,
    scale only axis,
    axis lines = middle,
    ticks=none,
    xlabel={$x$},
    ylabel={$y$},
    xlabel style={right},
    ylabel style={above},
    xmin=-4,
    xmax=4,
    every axis plot post/.append style={ultra thick, smooth},
}

\newcommand{\myimage}{\includegraphics[width=\linewidth,height=35mm]{example-image}}

\begin{document}

\begin{tblr}{
        colspec = {X[c,m]X[c,m]X[c,m]},
        width = \linewidth,
        row{1} = {font=\bfseries},
        vlines,
        hline{1,2,4,6,8,10} = {solid},
        
    }
    
    & {$n$ gerade} & {$n$ ungerade} \\
    \SetCell[r=2]{c} {$a > 0$}
    & \myimage 
    & \myimage 
    \\    
    & Der Graph der Potenzfunktion verl\"auft von $+\infty$ nach $+\infty$
    & Der Graph der Potenzfunktion verl\"auft von $-\infty$ nach $+\infty$ 
    \\
    \SetCell[r=2]{c} {$a < 0$}
    & \myimage 
    & \myimage 
    \\
    & Der Graph der Potenzfunktion verl\"auft von $-\infty$ nach $-\infty$
    & Der Graph der Potenzfunktion verl\"auft von $+\infty$ nach $-\infty$ 
    \\
    \SetCell[r=2]{c} {$|a| > 1$}
    & \myimage 
    & \myimage
    \\
    & \SetCell[c=2]{c} Dehnung in $y$-Richtung \\
    \SetCell[r=2]{c} {$|a| < 1$}
    & \myimage
    & \myimage \\
    & \SetCell[c=2]{c} Stauchung in $y$-Richtung \\
\end{tblr}

\end{document}