The fully balanced disk shown lo, m here is pivot pivoted at its centre, o, The disk has a mass m = 3 kg 02 and its radius R is 2R given as 189.5 mm. The mass m/2 moment of inertia I, is given as I, = mR. Note that a simple pendulum is suspended of the disk at a distance R from the its centre, whereby the length of the massless arm is 2R and mass of the attached bob is m/2. Find the fundamental natural frequency of the system in rad/sec (Do not type units in the answer box)

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The fully
balanced
disk shown
lo, m
here is
pivot
pivoted at
its centre,
o, The disk
has a mass
m = 3 kg
02
and its
radius R is
2R
given as
189.5 mm.
The mass
m/2
moment of inertia I, is given as I, = mR.
Note that a simple pendulum is suspended of
the disk at a distance R from the its centre,
whereby the length of the massless arm is 2R
and mass of the attached bob is m/2.
Find the fundamental natural frequency of the
system in rad/sec (Do not type units in the
answer box)
Transcribed Image Text:The fully balanced disk shown lo, m here is pivot pivoted at its centre, o, The disk has a mass m = 3 kg 02 and its radius R is 2R given as 189.5 mm. The mass m/2 moment of inertia I, is given as I, = mR. Note that a simple pendulum is suspended of the disk at a distance R from the its centre, whereby the length of the massless arm is 2R and mass of the attached bob is m/2. Find the fundamental natural frequency of the system in rad/sec (Do not type units in the answer box)
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