A Divergence Proof
The following celebrated, yet quite simple, divergence proof of the harmonic series was originally done by Nicole d'Oresme in the 1300s. It relys on providing a lower bound on Hn (which is just a function that is always below Hn) and showing that this lower bound goes to infinity.
The Set Up
The proof begins by simply grouping the terms together in such a way that the last term in each grouping has a denominator with some power of 2, like so:
H∞= 1 +1/2+ (1/3 +1/4) + (1/5+…+1/8) + (1/9+…+1/16) + ……
The Inequality
We know that this sum must be greater than:
1 +1/2+ (1/4 +1/4) + (1/8+…+1/8) + (1/16+…+1/16) + ……
because the bigger the denominator, the smaller the number.
Simplification
This new sum can be reduced to:
1+ 1/2 + 2/4 + 4/8 + 8/16 +….
or simply:
1+ 1/2 + 1/2 + 1/2 + 1/2 +….
Which we can easily see runs off to infinity.
The Comparison
Since H∞ is always greater than this new sum we created, H∞ must go to infinity also.