最小限のヘッダーとフッターで余白を設定する

試験用紙を作成中ですが、余白の設定に困っています。文書全体に余白を設定し、可能な限りのスペースを活用する必要があります。ヘッダーとフッターが大きくなりすぎないようにしたいです。余白を定義でき、後で必要に応じて変更できるとありがたいです。これが私の MWE です:

\documentclass[12pt]{exam}
\usepackage{amsmath,amssymb,graphicx,amsfonts, ,color, titling,tabularx,enumitem,multirow,array,ragged2e}
\usepackage{extsizes}
\usepackage[utf8]{inputenc}
\usepackage[english]{babel}
\usepackage{colortbl}
\usepackage{tikz}
\usepackage{gensymb}
\usepackage{calc}
\usetikzlibrary{tikzmark,fit,shapes.geometric}

\usepackage[left=1.5cm, top=1cm, bottom=1cm, right=1.5cm]{geometry}
\setlength{\voffset}{-0.3in}
\setlength{\headsep}{5pt}

\usepackage{changepage}

\makeatletter
    \newsavebox\widebox
\newenvironment{wide}
    {\@parboxrestore%
     \begin{adjustwidth}{}{-\leftmargin}%
                \begin{lrbox}{\widebox}%
                \begin{minipage}{\textwidth}
     }{\end{minipage}\end{lrbox}
     \fbox{\usebox\widebox}
     \end{adjustwidth}
     }
\makeatother

\usepackage{lipsum}    
\renewcommand{\familydefault}{\rmdefault}

%page 1

\title{\LARGE Lautoka Muslim College\\ \LARGE Department of Mathematics and Physics}
\date{\vspace{-12ex}}
\begin{document}
\maketitle
\thispagestyle{empty}
\begin{center}\LARGE{Term 1 Examination 2020}\end{center}
\smallskip
\begin{center}
\large{\textbf{\LARGE{Y13 MATHEMATICS}}}\\
\textit{Question Paper \& Answer Booklet}
\end{center}
 \medskip
 \begin{center}\large{Time Allowed: $3$ hours\\(\textit{An extra $10$ minutes is allowed for reading this paper})}\end{center}
\medskip
\textbf{NAME:} \rule{7cm}{0.1pt} \hspace{5cm} \textbf{YEAR:} \rule{2cm}{0.1pt} \\
\linebreak
\\
\textbf{INSTRUCTIONS}
\begin{enumerate}
\item Write your \textbf{Name} and \textbf{Year Level} on the front page. 
\item Write \textbf{all} your answers in the spaces provided
\item If you use extra sheets of paper, be sure to show clearly the question number(s) being answered and to attach each sheet securely at the appropriate places. Ensure that your \textbf{Name} and \textbf{Year Level} is written on the extra sheets.
\item Answer \textbf{all} the questions with a blue \textbf{or} black ballpoint pen or ink pen. \textbf{Do not} use red ink. You may use a pencil only for drawing. Use of \textbf{Friction Pen} is \textbf{strictly prohibited} for this exam.
\item You may use a calculator, provided it is silent, battery-operated and non-programmable.
\item Unless otherwise stated, all rounding off should be corrected to \textbf{two decimal places}. Rounding off decimal answers should be done only at the \textbf{final step}.
\item There are \textbf{$5$} questions in the paper. \textbf{All} questions are \textbf{compulsory}
\end{enumerate}
 \smallskip
\textbf{SUMMARY OF QUESTIONS}
 \begin{center}
\begin{tabular}{|c|l|c|c|}
\hline
\multicolumn{2}{|l|}{\textbf{STRAND}} & \textbf{MARKS} & \textbf{\begin{tabular}[c]{@{}c@{}}SUGGESTED TIME\end{tabular}} \\ \hline
1         & Complex Numbers           & 25             & 45 MINUTES                                                         \\ \hline
2         & Vectors                   & 15             & 27 MINUTES                                                         \\ \hline
3         & Graphs of Functions       & 30             & 54 MINUTES                                                         \\ \hline
5         & Limits and Continuity     & 15             & 27 MINUTES                                                         \\ \hline
6         & Algebra                   & 15             & 27 MINUTES                                                         \\ \hline
          & \textbf{TOTAL}        & \textbf{100 MARKS}    & \textbf{180 MINUTES}                                                         \\ \hline
\end{tabular}
\end{center}
\pagebreak

%page 1 ends

%Page 2 

\textbf{STRAND 1} \qquad\qquad\qquad\qquad\qquad\qquad\qquad \textbf{COMPLEX NUMBERS} \qquad\qquad\qquad\qquad\qquad\quad \hfill{\textbf{25 MARKS}}
\begin{itemize}
\item This strand has \textbf{$8$ Questions}
\item Show all working for \textbf{Questions 1-8}
\end{itemize}
\smallskip
\begin{questions}
\question A complex number is given as $z=2-\sqrt{3}i$. Find:
\begin{enumerate}[label=(\roman*)]
\item $Re(z)$, the \textbf{Real} part of z \hfill{($\frac{1}{2}$ mark)}
\begin{wide}
    \vspace{1cm}
    \raggedleft
        $Re(z)=\rule[-0.5em]{1in}{1pt}$
        \end{wide}
\vspace{0.5cm}
\item $Im(z)$, the \textbf{Imaginary} part of z \hfill{($\frac{1}{2}$ mark)}
\begin{wide}
    \vspace{1cm}
    \raggedleft
        $Im(z)=\rule[-0.5em]{1in}{1pt}$
        \end{wide}
\vspace{0.5cm}
\item $\bar{z}$, the \textbf{Conjugate} of z \hfill{($\frac{1}{2}$ mark)}
\begin{wide}
    \vspace{1cm}
    \raggedleft
        $\bar{z}=\rule[-0.5em]{1in}{1pt}$
        \end{wide}
\vspace{0.5cm}      
\item $z+\bar{z}$\hfill{($1$ mark)}
\begin{wide}
    \vspace{2cm}
    \raggedleft
        $z+\bar{z}=\rule[-0.5em]{1in}{1pt}$
        \end{wide}
\end{enumerate}
\vspace{0.5cm}   
\question if $v=1-i$ and $w=5+4i$, find:
\begin{enumerate}[label=(\roman*)]
\item $|w|$\hfill{($1$ mark)}
\begin{wide}
    \vspace{3cm}
    \raggedleft
        $|w|=\rule[-0.5em]{1in}{1pt}$
        \end{wide}
\vspace{0.5cm} 
\item $v+w$  \hfill{($1$ mark)}
\begin{wide}
    \vspace{3cm}
    \raggedleft
        $v+w=\rule[-0.5em]{1in}{1pt}$
        \end{wide}
\pagebreak
%Page 3
\item $vw$\hfill{($2$ marks)}
\begin{wide}
    \vspace{4cm}
    \raggedleft
        $vw=\rule[-0.5em]{1in}{1pt}$
        \end{wide}
\vspace{0.5cm} 
\end{enumerate}
\question Use the quadratic formula, $x=\cfrac{-b \pm \sqrt{b^{2}-4ac}}{2a}$ to solve $x^{2}-2x=-5$ where $x\in Z$ \hfill{($3$ marks)}
\begin{wide}
    \vspace{10cm}
    \raggedleft
        $x=\rule[-0.5em]{1.5in}{1pt}$
        \end{wide}
\vspace{0.5cm} 
\question Let $w=\sqrt{12}+\sqrt{2}i$ 
\begin{enumerate}[label=(\roman*)]
\item Find $Arg(w)$, the \textbf{Argument} of w \hfill{($1 \frac{1}{2}$ marks)}
\begin{wide}
    \vspace{5cm}
    \raggedleft
    $Arg(w)=\rule[-0.5em]{1in}{1pt}$
        \end{wide}
\pagebreak
\item Find $|w|$, the \textbf{modulus} of w \hfill{($1$ mark)}
\begin{wide}
    \vspace{7cm}
    \raggedleft
    $|w|=\rule[-0.5em]{1in}{1pt}$
        \end{wide}
\vspace{0.5cm}
\item Convert $w$ into \textbf{polar} form \hfill{($1$ mark)}
\begin{wide}
    \vspace{3cm}
    \raggedleft
    Polar Form$=\rule[-0.5em]{2in}{1pt}$
        \end{wide}
\vspace{0.5cm}
\item Use \textbf{De Movire's Theorem} to evaluate $w^{3}$ in rectangular form\hfill{($2$ marks)}\\
DMT : $Z^{n}=r^{n}(\cos n\theta + i\sin n\theta)$
\begin{wide}
    \vspace{9cm}
    \raggedleft
    $w^{3}=\rule[-0.5em]{2in}{1pt}$
        \end{wide}
\end{enumerate}
\pagebreak
%Page 5
\question Express $\cfrac{1}{2-3i}$ in the form $a+bi$ \hfill{($2$ marks)}
\begin{wide}
    \vspace{10cm}
    \raggedleft
    $\cfrac{1}{2-3i}=\rule[-0.5em]{1in}{1pt}$
        \end{wide}
\vspace{0.5cm}
\question Solve for $x$ and $y$ in $(-2+3i)(x+yi)=6-12i$ \hfill{($2$ marks)}
\begin{wide}
    \vspace{10cm}
    \raggedleft
    $\rule[-0.5em]{2in}{1pt}$
        \end{wide}
\pagebreak
\question Represent on an \textbf{Argand Diagram}: $1<|z|\leq 3$ \hfill{($2$ marks)}
\begin{wide}
    \vspace{7cm}
    \raggedleft
    Graph
        \end{wide}
\vspace{0.5cm}
\question Solve the equation $z^{2}=64(\cos {90\degree} +i\sin {90\degree})$ obtaining \textbf{two} distinct complex roots.
Leave your answers in polar form. \textit{Hint}:$W_{k}=\sqrt[n]{r}(\cos \frac{\theta + 360k}{n}+i\sin \frac{\theta + 360k}{n})$ \hfill{($4$ marks)}
\begin{wide}
    \vspace{13cm}
    \raggedleft
    $w_{0}=\rule[-0.5em]{2.5in}{1pt}$\\
    \vspace{1cm} 
    $w_{1}=\rule[-0.5em]{2.5in}{1pt}$
        \end{wide}
\end{questions}

\end{document}