diff --git a/math/computational_geometry/notes.page b/math/computational_geometry/notes.page
index 284d925..656fd1d 100644
--- a/math/computational_geometry/notes.page
+++ b/math/computational_geometry/notes.page
@@ -6,7 +6,7 @@ title: Computational Geometry Study Notes
 
 # Texts
 
-- *Discrete and Computational Geometry*
+- *Discrete and Computational Geometry*, Devadoss
 
 # Reading Notes
 
@@ -17,14 +17,12 @@ Computational Geometry is *discrete* rather than *continuous*
 Fundamental building blocks are the *point* and line *segment*.
 
 *polygon*
-: the closed region of the plane bounded by a finite collection of line segments
-forming a closed curve that does not intersect itself. The segments are called *edges*
-and the points where they meet are *vertices*. The set of vertices and edges is the *boundary*.
+: the closed region of the plane bounded by a finite collection of
+line segments forming a closed curve that does not intersect
+itself. The segments are called *edges* and the points where they meet
+are *vertices*. The set of vertices and edges is the *boundary*.
 
 **Theorem 1.1: Polygonal Jordan Curve**
-:The boundary $\partial P$ of a polygon $P$ partitions the plane into two parts.
-In particular, the two components of $\Bbb{R}^2\setminus \partial P$ are the
-bounded interior and the unbounded exterior.
-
-
-
+:The boundary $\partial P$ of a polygon $P$ partitions the plane into
+two parts.  In particular, the two components of $\Bbb{R}^2\setminus
+\partial P$ are the bounded interior and the unbounded exterior.