--- a/text/hochschild.tex	Tue Mar 02 21:52:01 2010 +0000
+++ b/text/hochschild.tex	Wed Mar 03 20:17:52 2010 +0000
@@ -5,19 +5,16 @@
 
 So far we have provided no evidence that blob homology is interesting in degrees 
 greater than zero.
-In this section we analyze the blob complex in dimension $n=1$
-and find that for $S^1$ the blob complex is homotopy equivalent to the 
-Hochschild complex of the category (algebroid) that we started with.
+In this section we analyze the blob complex in dimension $n=1$.
+We find that $\bc_*(S^1, \cC)$ is homotopy equivalent to the 
+Hochschild complex of the 1-category $\cC$.
+\nn{cat vs fields --- need to make sure this is clear}
 Thus the blob complex is a natural generalization of something already
 known to be interesting in higher homological degrees.
 
 It is also worth noting that the original idea for the blob complex came from trying
 to find a more ``local" description of the Hochschild complex.
 
-\nn{need to be consistent about quasi-isomorphic versus homotopy equivalent
-in this section.
-since the various complexes are free, q.i. implies h.e.}
-
 Let $C$ be a *-1-category.
 Then specializing the definitions from above to the case $n=1$ we have:
 \begin{itemize}