typos

Final.tex

@@ -238,13 +238,14 @@ So,
   \end{split}
 \end{align}
 
-$H(s)$ is our \textit{transfer function}, representing how the
-signal changes from the input to the output (specifically, the ratio
-of the output to the input, as a function of frequency).
+$H(s)$ is our \textit{transfer function}, representing how the signal
+changes from the input to the output (specifically, the ratio of the
+output to the input, as a function of frequency).
 
 There remains an unspecified term $A$; this term depends on which
 op-amp is being used. It remains to be shown how the overall transfer
-function responds as the properties of each op-amp is applied in turn.
+function responds as the properties of each op-amp are applied in
+turn.
 
 \subsection{The original case: the LM741}