I'm not understanding the very basics of Moment of Inertia

AI Thread Summary
The discussion revolves around calculating the moment of inertia of a CD with a diameter of 13 cm and a mass of 25 g, specifically about a perpendicular axis through its center. The moment of inertia formula for a disk is I = 1/2 MR^2, which the user initially misapplied due to a calculation error. Key points include the importance of the axis of rotation, as it affects the moment of inertia, and the utility of the Parallel Axis Theorem for different axes. The user ultimately resolves their confusion and gains a better understanding of the concept. This highlights the significance of proper calculations and foundational knowledge in physics.
TA1068
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Homework Statement


A 13cm diameter CD has a mass of 25 g.
What is the CD's moment of inertia for rotation about a perpendicular axis through its center?

Homework Equations


I = \int r^2 dm

and possibly...

Moment of inertia of cylinder or disk, about center = \frac{1}{2}MR^2


The Attempt at a Solution


I'm given certain values. The mass of the CD is .025 kg and it's radius is .065 m. Other than this, I am very confused. I tried just plugging in (.025)(.065)^2, but that didn't work.

Now I've checked through other threads regarding moment of inertia, but it's not exactly helpful unless I know the very basics. In all honesty, I've never even done integrals before; my calculus class is supposed to parallel what we are doing in physics, but they are doing a very poor job at it. I think I might have the hang of them from looking it up quickly online, though (I'm just a pain, huh?).

I know with such a very limited amount to work with here it can be difficult, but I catch on really quickly (I swear!), but for some reason this is a little tricky. Any pointers in the right direction would be greatly appreciated!
 
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Wikipedia is your friend.

The moment of inertia represents an object's resistance to angular acceleration about an axis. If you have two wheels of the same dimensions, but one is made out of lead and the other out of styrofoam, and you apply the same moment to each (by, for example, pushing on both with the same force at the same point), the lead wheel will spin much slower. This is because it has a much larger moment of inertia.

It is very important to keep track of what axis you are rotating the object around, as the same object will have a different moment of inertia depending on which axis it is rotating about. If you think about it, this makes sense--it's much easier to spin a dumbbell along the bar's axis than it is to spin it end-over-end.edit: Also, since doing that integral you posted is usually a big pain, there are tables of moments of inertia for commonly-shaped objects. Using these tables along with the Parallel Axis Theorem usually let's you calculate moments without having to resort to ugly integrals.

Also, for the problem you posted, you forgot to multiply by 1/2
 
Last edited:
Also, for the problem you posted, you forgot to multiply by 1/2

That I did. So I have the correct answer now, and I'm pretty sold on the concept of Moment of Inertia. I had already read up a bit on it, but it was a simple calculation error that had me thrown off the whole time.

What if the axis is at the edge of the disk rather than the center of the disk?
 
TA1068 said:
What if the axis is at the edge of the disk rather than the center of the disk?

That's where the Parallel Axis Theorem comes into play.
 
Got it. Thanks.
 
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