## CDs and Cavalieri’s Principle: Part 2

After demonstrating **Cavalieri’s Principle** with empty CD cases, I thought I’d do the same with the actual CDs.

Here we see a bunch of discs stacked up to make a **right** cylinder.

To compute the **volume** of this cylinder, it would be sufficient to know (a) the volume of one CD, and (b) the number of CDs in the stack. We would simply multiply the two together to get the volume.

The argument is less obvious, but essentially the same, regardless of how the CDs are stacked! So this “prism”

has the same volume as the original cylinder. Now, this object should also have the same volume

however some center-of-mass issues may foil our elegant mathematical demonstration.

*Click here to see more in Geometry.*

This is great!

P.S. You should include @MrHonner and possibly #mathchat in your Twitter button 🙂

Thanks for the advice, Maria, but I don’t think I can customize the Twitter button.

The center-of-mass issue will not spoil a demonstration if you use a simulation

http://www.cut-the-knot.org/Curriculum/Calculus/Cavalieri.shtml

I’m trying to keep this as

real-worldas possible. When students graduate, enter the workforce, and start stacking CDs in their professional lives, I don’t want them to be surprised by what happens. They can’t learn that from a “simulation”.