diff --git a/math/exp.c b/math/exp.c
index e893a76..dbe5080 100644
--- a/math/exp.c
+++ b/math/exp.c
@@ -9,8 +9,9 @@
   I was stuck on how to actually implement the Taylor series without it
   getting far too big for even a long double, and I'm not sure I ever would
   have thought to just break it out recursively like this. Instead of each
-  term being x^n/n!, this says that it's (x/n+1)*(nth term), with a base case
-  of x/1! = x. Pretty clever, really.
+  term being x^n/n!, where we have to figure out both x^n and n!, both of which
+  could be massive, we instead say that it's (x/n+1)*(nth term), with a base 
+  case (1st term) of x/1! = x. Pretty clever, really.
 
   Also, really glad I know how to at least read a basic FORTRAN program. This
   probably would have been a little more annoying if I didn't.