I asked myself back in 1983 at school:
What is the sum of the reciprocals of Pascal's triangle?
Of course the sum is infinite because of the 1's on left and right border.
What is the sum without the 1's?
Of course the sum is infinite again because of the harmonic series on left and right border.
What is the sum of Pascal's triangle reciprocals without the 1's and without the two harmonic series?
And the answer was (and is) 3/2 !
So based on the Theorem further below the Corollary (sum being 3/2) can be prooven pretty easily.
unit fraction into binomial coefficient reciprocals.
Starting summation of binomial coefficient reciprocals at row j+1 for column j gives 1/(j-1).
It is left as exercise to the reader ;-)
(or as challenge for one being significantly shorter than two pages).
So, why is this posting marked with XSLT tag?
Easier to proof it the theorem validity can just be "seen" by actually doing the summations.
Of course these summations are done by a styesheet.
Click on Pascal.xml to compute the sums in your browser (by stylesheet Pascal.xsl).
(interesting what pure HTML allows for in typesetting mathematical formulas itself)
$ cat Pascal.xml
<?xml-stylesheet href="Pascal.xsl" type="text/xsl"?>