diff --git a/submission_thesis/CH5_Examples/copy.tex b/submission_thesis/CH5_Examples/copy.tex
index 77dcdad..b91ab43 100644
--- a/submission_thesis/CH5_Examples/copy.tex
+++ b/submission_thesis/CH5_Examples/copy.tex
@@ -84,7 +84,7 @@ output voltage above or equal to zero  would be erroneous i.e. an `$AMP_{HIGH}$'
 A threshold would be determined for an `$AMP_{LOW}$' failure symptom (i.e. the output voltage more negative than expected). % error given the expected input range.
 %
 %This configuration is interesting from methodology pers.
-Following the guidelines for the FMMD process (see section~\ref{fmmdguide}), initially  potential {\fgs} are identified.
+Following the guidelines for the FMMD process (see section~\ref{fmmdguide}), initial potential {\fgs} are identified.
 %
 There are two obvious ways in which this circuit can be modelled.
 %
@@ -735,7 +735,7 @@ This FMMD analysis also revealed an undetectable failure mode,  $DiffAMPIncorrec
 
 The circuit in figure~\ref{fig:circuit2} shows a five pole low pass filter.
 %
-Using the FMMD guidelines~\ref{fmmdguide}, a top down view of the circuit is taken, and then groups of components
+Using the FMMD guidelines (see section ~\ref{fmmdguide}), a top down view of the circuit is taken, and then groups of components
 performing specific tasks are identified.
 %
 Starting at the input, there is a first order low pass filter buffered by an op-amp, 
@@ -1092,7 +1092,7 @@ hence a fault anywhere in the loop is likely to affect all stages.
 However, this is not a problem for FMMD, as {\fgs} are readily identifiable.
 %
 %
-Using the FMMD guidelines~\ref{fmmdguide}, a top down view of the circuit is taken, and then groups of components
+Using the FMMD guidelines (see section~\ref{fmmdguide}), a top down view of the circuit is taken, and then groups of components
 performing specific tasks are identified.
 %
 %The signal path is circular (its a positive feedback circuit) and most failures would simply cause the output to stop oscillating.