The period of physical pendulum is 2π√(I/mgd), where I is the moment of inertia about the pivot point and d is the distance from the pivot to the center of mass. A circular hoop hangs from a nail on a barn wall. The mass of the hoop is 3 kilograms and its radius is 20 centimeters. If it is displaced slightly by a passing breeze, what is the period of the resulting oscillations?
A. 0.63 s
B. 1.0 s
C. 1.3 s
D. 1.8 s
E. 2.1 s
(GR9677 #21)
T = 2π√(I/mgd)
m = 3 kg
r = 20 cm = 0.2 m
In this case d = r
To find total I:
Parallel axis theorem: I = ml2 + ICM
ICM = Iloop = mr2
In this case l = r
→ I = mr2 + mr2 = 2mr2
T = 2π√(2mr2 / mgr)
= 2π√(2r/g)
= 2π√[2(0.2)/(10)]
= 2π(0.2)
= 1.25 s
= 2π√(2r/g)
= 2π√[2(0.2)/(10)]
= 2π(0.2)
= 1.25 s
Answer: C
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