diff --git a/Doc/tut/tut.tex b/Doc/tut/tut.tex
index 85d58055f28..44021389f89 100644
--- a/Doc/tut/tut.tex
+++ b/Doc/tut/tut.tex
@@ -942,7 +942,7 @@ the same object!  We'll come back to \emph{object semantics} later.
 
 Of course, we can use Python for more complicated tasks than adding
 two and two together.  For instance, we can write an initial
-subsequence of the \emph{Fibonacci} series as follows:
+sub-sequence of the \emph{Fibonacci} series as follows:
 
 \begin{verbatim}
 >>> # Fibonacci series:
@@ -2032,7 +2032,7 @@ two items are compared, and so on, until either sequence is exhausted.
 If two items to be compared are themselves sequences of the same type,
 the lexicographical comparison is carried out recursively.  If all
 items of two sequences compare equal, the sequences are considered
-equal.  If one sequence is an initial subsequence of the other, the
+equal.  If one sequence is an initial sub-sequence of the other, the
 shorter sequence is the smaller one.  Lexicographical ordering for
 strings uses the \ASCII{} ordering for individual characters.  Some
 examples of comparisons between sequences with the same types:
@@ -3910,10 +3910,12 @@ finally the instance converted to a string using the built-in function
 
 \chapter{What Now? \label{whatNow}}
 
-Hopefully reading this tutorial has reinforced your interest in using
-Python.  Now what should you do?
+Reading this tutorial has probably reinforced your interest in using
+Python --- you should be eager to apply Python to solve your
+real-world problems.  Now what should you do?
 
-You should read, or at least page through, the Library Reference,
+You should read, or at least page through, the
+\citetitle[../lib/lib.html]{Python Library Reference},
 which gives complete (though terse) reference material about types,
 functions, and modules that can save you a lot of time when writing
 Python programs.  The standard Python distribution includes a