</li>
<li><p><a href="code/Makefile">Makefile</a>. Last but not least. You will
probably need to edit the variable <code>root</code> defined at the
- top of the Makefile. This defines the location of your
+ top of the Makefile. This variable defines the location of your
<acronym>DEAL</acronym> directory.</p>
</li>
</ul>
advance through the chapters in their proper order. This tutorial contains the
complete code for every example program and can be used as a reference, too,
if you are looking for code to solve a specific problem with
- <acronym>deal.II</acronym>. The 0th chapter
- <a href="00.fe_structure/index.html">Structure of a Finite Element Program</a> can also be used as a reference.
+ <acronym>deal.II</acronym>. The 0th chapter,
+ <a href="00.fe_structure/index.html">Structure of a Finite Element Program</a>, can also be used as a reference.
</p>
<h3>On <acronym>deal.II</acronym></h3>
</p>
<h3><a href="00.fe_structure/index.html">Chapter 0: Structure of a
Finite Element Program</a> </h3>
- <p> (also in a <a href="00.fe_structure/toc.html">version without frames</a>)
+ <p> (also available in a <a href="00.fe_structure/toc.html">version without frames</a>)
</p>
<p>We will discuss the various elements needed for a working
finite element program and some of the possibilitier
<h3><a href="01.laplace/index.html">Chapter 1: The Laplace
Problem</a> </h3>
<p>
- (also in a <a href="01.laplace/toc.html">version without frames</a>)
+ (also available in a <a href="01.laplace/toc.html">version without frames</a>)
</p>
<p>
We will solve the stationary Laplace problem on a square grid with