Find period of circular disk physical pendulum

AI Thread Summary
The discussion focuses on calculating the period of oscillation for a uniform circular disk acting as a physical pendulum. The period formula T = 2π(I/(mgh))^0.5 is used, with the moment of inertia I initially calculated incorrectly. The correct moment of inertia for the disk around its pivot point requires the application of the parallel axis theorem. The user initially calculated a period of 0.63 seconds, but the correct answer is 1.55 seconds. Understanding the moment of inertia and the pivot point's role is crucial for accurate calculations.
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Homework Statement



A uniform circular disk whose radius R is 40.0 cm is suspended as a physical pendulum from a point on its rim.

(a) What is its period of oscillation?

(b) At what radial distance r < R is there a point of suspension that gives the same period?

R = .40 m
g = 9.81 m/s^2
h = .40m

Homework Equations



T = 2pi(I/(mgh))^.5
I = .25mR^2

The Attempt at a Solution



I don't understand why R is .40 m but h isn't. I arrived at a solution of .63 s, but the actual solution is 1.55 s.
 
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Your moment of inertia is wrong.

EDIT: Have you heard of the parallel axis theorem?
 
Last edited:
Read a little on it once you mentioned it. The axis of rotation Rz, and is perpendicular to the disk and goes through the attachment point, right?
 
Yes, the axis of rotation is perpendicular to the disk surface and does pass through the pivot point. I am not sure what you mean by, "The axis of rotation Rz" though.

Anyway, basically you know the moment of inertia of the disk around its centre of mass, and can use this result plus the parallel axis theorem to determine the moment of inertia for rotation around the pivot point.
 

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