Moment of inertia (formula problem)

AI Thread Summary
The discussion centers on the use of different formulas for calculating the moment of inertia of a slender rod, specifically I=1/12ml² for the center and I=1/3ml² for the end. Participants clarify that these formulas are not interchangeable, as they yield different results depending on the axis of rotation. The author of the example used the center of mass for calculations in one instance, which is why only I=1/12ml² was applied. The importance of selecting the correct point for calculating moments is emphasized, as it can significantly affect the outcome. Understanding these distinctions is crucial for solving related physics problems effectively.
sseebbeekkk
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1. Material
DMkRCvV.jpg

2. Questions:
a) (pink) Why does the author use two different values of inertia for the same slender rod ?

The Attempt at a Solution


[/B]
a) I could assume that 1/3 is holding it at the end and 1/12 is holding it in the center.
But it's not interchangeable because if I chose 1/3 instead of 1/12 in the example (17.10) I would get totally different final result.
 
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sseebbeekkk said:
a) I could assume that 1/3 is holding it at the end and 1/12 is holding it in the center.
They are the rotational inertias about the end and about the center, respectively. It is up to you to figure out which is the most useful point for calculating moments in any particular problem. (Sometimes it doesn't matter.)

sseebbeekkk said:
But it's not interchangeable because if I chose 1/3 instead of 1/12 in the example (17.10) I would get totally different final result.
Realize that 17.10 uses both values of rotational inertia. :)
 
Ok, thank you :)
 
Ok I have realized that I don't understand it fully (I miss something basic probably)
GwP1NjA.png


According to this example we should calculate the moment of inertia using formula I=1/12ml2+md2

So why did the author in 17.10 use simply [1/12ml2]*α

Instead of [1/12ml2+md2]*α
 
sseebbeekkk said:
According to this example we should calculate the moment of inertia using formula I=1/12ml2+md2
Only because you want the moment of inertia about point O.

sseebbeekkk said:
So why did the author in 17.10 use simply [1/12ml2]*α

Instead of [1/12ml2+md2]*α
Because the author was calculating the moment of inertia about the center of mass, not the end of the rod.
 
Ok, finally I understand it (hope so)

I can choose I=1/12ml2 = in that case (17.10) 1/12*20*32=15
or I=1/3ml2 = (center at 1.5) 1/3*20*1,52=15

It works :biggrin:EDIT: but if that what I have just written is true, I have got the following question:

Why did the author write in 17.12 (1/3ml2) instead of 1/3m * (l/2)2 ?
 
Last edited:
sseebbeekkk said:
Ok, finally I understand it (hope so)

I can choose I=1/12ml2 = in that case (17.10) 1/12*20*32=15
or I=1/3ml2 = (center at 1.5) 1/3*20*1,52=15
Don't do that!

In both formulas, the "l" stands for the length of the rod. It's the same value in both formulas. The moment of inertia about one end (the 1/3 formula) is different from the moment of inertia about the center (the 1/12 formula).
 
That was very concise and clear.
Thank you :-)
 

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