Simple Harmonic Motion of a Rigid Body

AI Thread Summary
The discussion focuses on calculating the period of oscillation for a rigid rod attached to a meter stick, suspended from a pivot. The moment of inertia is initially calculated using the formula 1/3 ML^2, but clarification is sought regarding the variable "d" in the equations. It is clarified that "d" represents the distance from the pivot to the center of mass, and the parallel axis theorem is applied correctly to find the moment of inertia. The user confirms that substituting the correct values yields the accurate period of 2.15 seconds. The conversation emphasizes the importance of understanding the relationship between the pivot, center of mass, and moment of inertia in harmonic motion calculations.
Cintdrix
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Homework Statement



A very light, rigid rod with a length of 0.570 m extends straight out from one end of a meter stick. The stick is suspended from a pivot at the far end of the rod and is set into oscillation. Determine the period of oscillation.


Homework Equations



omega = (Mgd/I)^1/2
omega = 2pi/period.

The Attempt at a Solution



I solved this question, but I was just looking for clarification as to why it was right. The moment of inertia of the rod would be 1/3 ML^2 and using the parallel axis theorem I would have to add Md^2 on top of that.

The masses cancel in the first equation, but I was wondering about the "d" in the numerator. What does it represent? I originally thought it was the distance from the centre of mass to the pivot but it wasn't the case for this problem. Any insight is appreciated.

I when i subbed d=0.57 into the equation i got the correct answer of 2.15s, but I don't understand why.
 
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Cintdrix said:

The Attempt at a Solution



I solved this question, but I was just looking for clarification as to why it was right. The moment of inertia of the rod would be 1/3 ML^2 and using the parallel axis theorem I would have to add Md^2 on top of that.

The parallel axes theorem says that the moment of inertia about distance d from the center of mass is given by

I = ICM + md2, where ICM = (1/12)mL2 for a uniform rod not (1/3)mL2. If you got the right answer, you must have made two errors that canceled each other.
 
True. I was using the moment of inertia about one end of the stick, which is indeed (1/3)mL2. In my case i guess the D was still the distance from the old axis to the new axis. In using the moment of inertia about the CM, and making d the distance between the pivot and the CM, I was able to again get the correct answer.

Thanks for your help
 

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