From: W. Trevor King <wking@tremily.us>
Date: Fri, 28 Jun 2013 12:05:54 +0000 (-0400)
Subject: introduction/main.tex: Mention unfold-protein in the outline
X-Git-Tag: v1.0~6
X-Git-Url: http://git.tremily.us/?a=commitdiff_plain;h=d19a0d79f93b3c203a7d841008f74386ddfd6e54;p=thesis.git

introduction/main.tex: Mention unfold-protein in the outline

Try to tie the abstract (which just mentions unfold-protein) to the
chapter subject (which just mentions pyafm), while still making it
clear that they are both my work.
---

diff --git a/src/introduction/main.tex b/src/introduction/main.tex
index 20f6481..76ce965 100644
--- a/src/introduction/main.tex
+++ b/src/introduction/main.tex
@@ -212,10 +212,10 @@ simulation for modeling unfolding/refolding behavior.  By comparing
 model simulations with experimental measurements, we can gain insight
 into the protein's kinetics.  After \cref{sec:sawsim}, you should have
 a pretty firm grasp of the underlying physics, so we'll move on to
-\cref{sec:pyafm} and discuss my \pyafm\ experiment control software.
-With both the kinetic theory and procedure taken care of,
-\cref{sec:calibcant} discusses thermal cantilever calibration,
-deriving the theoretical approach and presenting my
+\cref{sec:pyafm} and discuss my \pyafm\ and \unfoldprotein\ experiment
+control software.  With both the kinetic theory and procedure taken
+care of, \cref{sec:calibcant} discusses thermal cantilever
+calibration, deriving the theoretical approach and presenting my
 \calibcant\ automatic calibration software.
 
 Moving away from experiment control, \cref{sec:hooke} presents the