図を2つの列挙環境の隣に並べて配置します

Question 1

タスクパッケージを使用してグラフをミニページに配置することを提案します

    %https://tex.stackexchange.com/questions/661529/place-figure-next-to-two-enumerate-enivronments-side-by-side
    \documentclass{report}
    \usepackage{tasks}
    \usepackage{graphicx}


    \parindent=0pt
    \settasks{label=\bfseries\arabic*.),label-width=2em}
    \begin{document}
    Copy each of the following expressions onto your paper and either state the
    value or state that the value is undefined or doesn't exist. Make sure that
    when discussing the values you use proper terminology. All expressions are in
    reference to the function $g$ shown in Figure.

    \begin{minipage}[t]{0.6\linewidth}
        \vspace{0pt}
    \begin{tasks}[start=2](2)
        \task $g(5)$.
        \vspace{2cm}
        \task $g(-2)$.
        \vspace{2cm}
    \end{tasks}
    \begin{tasks}[start=10](2)
        \task $\lim_{x \to 2^{+}} g(t)$.
        \vspace{2cm}
        \task $\lim_{t \to 5} g(t)$.
        \vspace{2cm}
        \task $\lim_{t \to 2^{-}} g(t)$.
        \vspace{2cm}
        \task $\lim_{x \to -2} g(t)$.
        \vspace{2cm}
    \end{tasks}
    \end{minipage}%
    \begin{minipage}[t]{0.4\linewidth}
        \vspace{0pt}
        \centering
        \includegraphics[width=\linewidth]{example-image-duck}
        $y = g(x)$
    \end{minipage}

    Create tables similar to Tables 2.1.3 and 2.1.4 from which you can deduce
    each of the following limit values. Make sure that you include table numbers,
    table captions, and meaningful column headings. Make sure that your input
    values follow patterns similar to those used in Tables 2.1.3 and 2.1.3. Make
    sure that you round your output values in such a way that a clear and
    compelling pattern in the output is clearly demonstrated by your stated
    values. Make sure that you state the limit value!
    [\textbf{\textit{2pts}}] 

    \begin{tasks}[start=19](2)
    \task $\displaystyle\lim_{x \to 1^{+}} \frac{\sin(x + 1)}{3x + 3}$.
    \end{tasks}
    \end{document}

編集2問題領域 paracol によるより良い解決策。

パッケージのデバッグオプションは非常に興味深い

            %https://tex.stackexchange.com/questions/661529/place-figure-next-to-two-enumerate-enivronments-side-by-side
            \documentclass{report}
            \usepackage{graphicx}
            \usepackage{tasks}
            \usepackage{paracol}

            \parindent=0pt
            \settasks{label=\bfseries\arabic*.),label-width=2em,before-skip = 0pt,after-skip=2cm,after-item-skip = 2cm,debug}
            %\settasks{label=\bfseries\arabic*.),label-width=2em,before-skip = 0pt,after-skip=2cm,after-item-skip = 2cm}
            \begin{document}

            Copy each of the following expressions onto your paper and either state the
            value or state that the value is undefined or doesn't exist. Make sure that
            when discussing the values you use proper terminology. All expressions are in
            reference to the function $g$ shown in Figure~\ref{fig:limit_graph}.

            \smallskip
            \begin{paracol}{2}
        \begin{tasks}[start=2](2)
        \task $g(5)$.
        \task $g(-2)$.
    \end{tasks}
    \begin{tasks}[start=10](2)
        \task $\lim_{x \to 2^{+}} g(t)$.
        \task $\lim_{t \to 5} g(t)$.
        \task $\lim_{t \to 2^{-}} g(t)$.
        \task $\lim_{x \to -2} g(t)$.
    \end{tasks}
    \switchcolumn
    \begin{figure}
    \includegraphics[width=\linewidth,height=7cm]{example-image-duck}
    \caption{$y = g(x)$}
    \label{fig:limit_graph}    
    \end{figure}
    \end{paracol}       

            Create tables similar to Tables 2.1.3 and 2.1.4 from which you can deduce
            each of the following limit values. Make sure that you include table numbers,
            table captions, and meaningful column headings. Make sure that your input
            values follow patterns similar to those used in Tables 2.1.3 and 2.1.3. Make
            sure that you round your output values in such a way that a clear and
            compelling pattern in the output is clearly demonstrated by your stated
            values. Make sure that you state the limit value!
            [\textbf{\textit{2pts}}] 

            \begin{tasks}[start=19]
            \task $\displaystyle\lim_{x \to 1^{+}} \frac{\sin(x + 1)}{3x + 3}$.
            \end{tasks}
            \end{document}

Answer

タスクパッケージを使用してグラフをミニページに配置することを提案します

    %https://tex.stackexchange.com/questions/661529/place-figure-next-to-two-enumerate-enivronments-side-by-side
    \documentclass{report}
    \usepackage{tasks}
    \usepackage{graphicx}


    \parindent=0pt
    \settasks{label=\bfseries\arabic*.),label-width=2em}
    \begin{document}
    Copy each of the following expressions onto your paper and either state the
    value or state that the value is undefined or doesn't exist. Make sure that
    when discussing the values you use proper terminology. All expressions are in
    reference to the function $g$ shown in Figure.

    \begin{minipage}[t]{0.6\linewidth}
        \vspace{0pt}
    \begin{tasks}[start=2](2)
        \task $g(5)$.
        \vspace{2cm}
        \task $g(-2)$.
        \vspace{2cm}
    \end{tasks}
    \begin{tasks}[start=10](2)
        \task $\lim_{x \to 2^{+}} g(t)$.
        \vspace{2cm}
        \task $\lim_{t \to 5} g(t)$.
        \vspace{2cm}
        \task $\lim_{t \to 2^{-}} g(t)$.
        \vspace{2cm}
        \task $\lim_{x \to -2} g(t)$.
        \vspace{2cm}
    \end{tasks}
    \end{minipage}%
    \begin{minipage}[t]{0.4\linewidth}
        \vspace{0pt}
        \centering
        \includegraphics[width=\linewidth]{example-image-duck}
        $y = g(x)$
    \end{minipage}

    Create tables similar to Tables 2.1.3 and 2.1.4 from which you can deduce
    each of the following limit values. Make sure that you include table numbers,
    table captions, and meaningful column headings. Make sure that your input
    values follow patterns similar to those used in Tables 2.1.3 and 2.1.3. Make
    sure that you round your output values in such a way that a clear and
    compelling pattern in the output is clearly demonstrated by your stated
    values. Make sure that you state the limit value!
    [\textbf{\textit{2pts}}] 

    \begin{tasks}[start=19](2)
    \task $\displaystyle\lim_{x \to 1^{+}} \frac{\sin(x + 1)}{3x + 3}$.
    \end{tasks}
    \end{document}

編集2問題領域 paracol によるより良い解決策。

パッケージのデバッグオプションは非常に興味深い

            %https://tex.stackexchange.com/questions/661529/place-figure-next-to-two-enumerate-enivronments-side-by-side
            \documentclass{report}
            \usepackage{graphicx}
            \usepackage{tasks}
            \usepackage{paracol}

            \parindent=0pt
            \settasks{label=\bfseries\arabic*.),label-width=2em,before-skip = 0pt,after-skip=2cm,after-item-skip = 2cm,debug}
            %\settasks{label=\bfseries\arabic*.),label-width=2em,before-skip = 0pt,after-skip=2cm,after-item-skip = 2cm}
            \begin{document}

            Copy each of the following expressions onto your paper and either state the
            value or state that the value is undefined or doesn't exist. Make sure that
            when discussing the values you use proper terminology. All expressions are in
            reference to the function $g$ shown in Figure~\ref{fig:limit_graph}.

            \smallskip
            \begin{paracol}{2}
        \begin{tasks}[start=2](2)
        \task $g(5)$.
        \task $g(-2)$.
    \end{tasks}
    \begin{tasks}[start=10](2)
        \task $\lim_{x \to 2^{+}} g(t)$.
        \task $\lim_{t \to 5} g(t)$.
        \task $\lim_{t \to 2^{-}} g(t)$.
        \task $\lim_{x \to -2} g(t)$.
    \end{tasks}
    \switchcolumn
    \begin{figure}
    \includegraphics[width=\linewidth,height=7cm]{example-image-duck}
    \caption{$y = g(x)$}
    \label{fig:limit_graph}    
    \end{figure}
    \end{paracol}       

            Create tables similar to Tables 2.1.3 and 2.1.4 from which you can deduce
            each of the following limit values. Make sure that you include table numbers,
            table captions, and meaningful column headings. Make sure that your input
            values follow patterns similar to those used in Tables 2.1.3 and 2.1.3. Make
            sure that you round your output values in such a way that a clear and
            compelling pattern in the output is clearly demonstrated by your stated
            values. Make sure that you state the limit value!
            [\textbf{\textit{2pts}}] 

            \begin{tasks}[start=19]
            \task $\displaystyle\lim_{x \to 1^{+}} \frac{\sin(x + 1)}{3x + 3}$.
            \end{tasks}
            \end{document}

Question 2

これが私の解決策です:

\documentclass{report}

\usepackage{wrapfig}
\usepackage{multicol}
\usepackage{import}
\pdfminorversion=7
\usepackage{pdfpages}
\usepackage{transparent}
\newcommand{\incfig}[2][]{%
  \def\svgwidth{#1\columnwidth}
  \import{./figures/}{#2.pdf_tex}
}

\begin{document}
Copy each of the following expressions onto your paper and either state the
value or state that the value is undefined or doesn't exist. Make sure that
when discussing the values you use proper terminology. All expressions are in
reference to the function $g$ shown in Figure~\ref{fig:limit_graph}.

\begin{wrapfigure}[7]{r}{0.4\linewidth}
  \centering
  \incfig[0.4]{limit-graph}
  \caption{$y = g(x)$}
  \label{fig:limit_graph}
\end{wrapfigure}
$ $
\begin{multicols}{2}
  \begin{enumerate}
    \item[\textbf{2.)}] $g(5)$.
      \vspace{2cm}
    \item[\textbf{10.)}] $g(-2)$.
      \vspace{2cm}
    \item[\textbf{12.)}] $\lim_{x \to 2^{+}} g(t)$.
      \vspace{2cm}
    \end{enumerate}\columnbreak\begin{enumerate}
    \item[\textbf{3.)}] $\lim_{t \to 5} g(t)$.
      \vspace{2cm}
    \item[\textbf{11.)}] $\lim_{t \to 2^{-}} g(t)$.
      \vspace{2cm}
    \item[\textbf{13.)}] $\lim_{x \to -2} g(t)$.
      \vspace{2cm}
  \end{enumerate}
\end{multicols}
\vspace{1.1cm}

Create tables similar to Tables 2.1.3 and 2.1.4 from which you can deduce
each of the following limit values. Make sure that you include table numbers,
table captions, and meaningful column headings. Make sure that your input
values follow patterns similar to those used in Tables 2.1.3 and 2.1.3. Make
sure that you round your output values in such a way that a clear and
compelling pattern in the output is clearly demonstrated by your stated
values. Make sure that you state the limit value!
[\textbf{\textit{2pts}}] \\\\

\textbf{19.)} $\displaystyle\lim_{x \to 1^{+}} \frac{\sin(x + 1)}{3x + 3}$.
\end{document}

出力は次のとおりです。

wrapfigureあまり変更していません。キャプションの位置を変更し、次の段落に折り返されないように、折り返す行数を明示的に指定しただけです。

Answer

これが私の解決策です:

\documentclass{report}

\usepackage{wrapfig}
\usepackage{multicol}
\usepackage{import}
\pdfminorversion=7
\usepackage{pdfpages}
\usepackage{transparent}
\newcommand{\incfig}[2][]{%
  \def\svgwidth{#1\columnwidth}
  \import{./figures/}{#2.pdf_tex}
}

\begin{document}
Copy each of the following expressions onto your paper and either state the
value or state that the value is undefined or doesn't exist. Make sure that
when discussing the values you use proper terminology. All expressions are in
reference to the function $g$ shown in Figure~\ref{fig:limit_graph}.

\begin{wrapfigure}[7]{r}{0.4\linewidth}
  \centering
  \incfig[0.4]{limit-graph}
  \caption{$y = g(x)$}
  \label{fig:limit_graph}
\end{wrapfigure}
$ $
\begin{multicols}{2}
  \begin{enumerate}
    \item[\textbf{2.)}] $g(5)$.
      \vspace{2cm}
    \item[\textbf{10.)}] $g(-2)$.
      \vspace{2cm}
    \item[\textbf{12.)}] $\lim_{x \to 2^{+}} g(t)$.
      \vspace{2cm}
    \end{enumerate}\columnbreak\begin{enumerate}
    \item[\textbf{3.)}] $\lim_{t \to 5} g(t)$.
      \vspace{2cm}
    \item[\textbf{11.)}] $\lim_{t \to 2^{-}} g(t)$.
      \vspace{2cm}
    \item[\textbf{13.)}] $\lim_{x \to -2} g(t)$.
      \vspace{2cm}
  \end{enumerate}
\end{multicols}
\vspace{1.1cm}

Create tables similar to Tables 2.1.3 and 2.1.4 from which you can deduce
each of the following limit values. Make sure that you include table numbers,
table captions, and meaningful column headings. Make sure that your input
values follow patterns similar to those used in Tables 2.1.3 and 2.1.3. Make
sure that you round your output values in such a way that a clear and
compelling pattern in the output is clearly demonstrated by your stated
values. Make sure that you state the limit value!
[\textbf{\textit{2pts}}] \\\\

\textbf{19.)} $\displaystyle\lim_{x \to 1^{+}} \frac{\sin(x + 1)}{3x + 3}$.
\end{document}

出力は次のとおりです。

wrapfigureあまり変更していません。キャプションの位置を変更し、次の段落に折り返されないように、折り返す行数を明示的に指定しただけです。

図を2つの列挙環境の隣に並べて配置します

答え1

答え2

関連情報