X-Git-Url: https://git.donarmstrong.com/?p=don.git;a=blobdiff_plain;f=posts%2Fnumerology.mdwn;h=59b93bf2e18490df35a87f9b65fb4d83557cf9d4;hp=6fe266ebadd38abdefb3291fff682c6b4f14021d;hb=65317441a079c3cc4f3417a14ce416bd51de8678;hpb=1f94fce57300bbdadda0c62be0f37812c2192f78

diff --git a/posts/numerology.mdwn b/posts/numerology.mdwn
index 6fe266e..59b93bf 100644
--- a/posts/numerology.mdwn
+++ b/posts/numerology.mdwn
@@ -1,6 +1,6 @@
 [[!meta title="A Dozen and a Gross meet Numerology"]]
 
-Laurel sent me this gem [^1], which lead me to find the wikipedia page on
+Laurel sent me this gem[^1], which lead me to find the wikipedia page on
 [Mathematical Jokes](http://en.wikipedia.org/wiki/Mathematical_joke):
 
 [[!teximg code="\frac{12+114+20+3\sqrt{3}}{7}+5\cdot11=9^2+0"]]
@@ -13,13 +13,13 @@ equals nine squared and not a bit more.
 
 And from there, I found another:
 
-[[!teximg code="\int^1_{\sqrt[3]{3}} \! z^2\, \mathrm{d}z \cdot \cos \frac{3\pi}{9}=\log \sqrt[3]{e}"]]
+[[!teximg code="\int^{\sqrt[3]{3}}_1 \! z^2\, \mathrm{d}z \cdot \cos \frac{3\pi}{9}=\log \sqrt[3]{e}"]]
 
 Integral z-squared dz  
 From 1 to the cube root of 3  
 Times the cosine  
 Of three pi over 9  
-Equals log of the cube root of /e/.  
+Equals log of the cube root of e.  
 
 
 [^1]: Apparently by Leigh Mercer