The moment of inertia (MOI) of a rod that rotates around its center is $\frac{1}{12} m l^2$, while a rod that rotates around its end is $\frac{1}{3} ml^2$, as listed here.
That doesn't sound right – please see the image. A rod that rotates around its center can be viewed as two rods rotating around a common end point. Each rod's MOI is $\frac{1}{3} ml^2$, so two rods have MOI $\frac{2}{3} ml^2$
What is wrong?
Best Answer
Start with the moment of inertia (about one end) of a rod of length $L/2$ and mass $m/2$:
$$ I = \frac{1}{3}\frac{m}{2}\left(\frac{L}{2}\right)^2 = \frac{mL^2}{24} $$
Multiply by two, to get a rod of length $L$ and mass $m$ pivoted about the middle and you get:
$$ I = \frac{mL^2}{12} $$
You forgot to allow for the doubling/halving of the mass.