diff --git a/doc/src/JPG/pair_body_rounded.png b/doc/src/JPG/pair_body_rounded.png
new file mode 100644
index 0000000000..709105ca32
Binary files /dev/null and b/doc/src/JPG/pair_body_rounded.png differ
diff --git a/doc/src/pair_body_rounded_polygon.txt b/doc/src/pair_body_rounded_polygon.txt
index 55bd8e51d4..e015dc76df 100644
--- a/doc/src/pair_body_rounded_polygon.txt
+++ b/doc/src/pair_body_rounded_polygon.txt
@@ -63,6 +63,8 @@ explains how contact is defined?  Do we need an equation(s) that
 explain what the params in pair style and coeff mean, for damping and
 spring constants?  Or do we just want to reference the paper for that?
 
+:c,image(JPG/pair_body_rounded.jpg)
+
 In "Fraige"_#Fraige, the tangential friction force between two particles
 that are in contact is modeled differently prior to gross sliding
 (i.e. static friction) and during gross-sliding (kinetic friction).
diff --git a/doc/src/pair_body_rounded_polyhedron.txt b/doc/src/pair_body_rounded_polyhedron.txt
index 5f43ebee63..4c48b5c1bf 100644
--- a/doc/src/pair_body_rounded_polyhedron.txt
+++ b/doc/src/pair_body_rounded_polyhedron.txt
@@ -64,6 +64,8 @@ explains how contact is defined?  Do we need an equation(s) that
 explain what the params in pair style and coeff mean, for damping and
 spring constants?  Or do we just want to reference the paper for that?
 
+:c,image(JPG/pair_body_rounded.jpg)
+
 In "Wang"_#Wang, the tangential friction force between two particles
 that are in contact is modeled differently prior to gross sliding
 (i.e. static friction) and during gross-sliding (kinetic friction).