9.35 A twirler's baton is made of a slender metal cylinder of mass M and length L. Each end has a rubber cap of mass m and you can accurately treat each cap as a particle in this problem. Find the total moment of inertia of the baton about the usual twirling axis (per- pendicular to the baton through its center).
9.35 A twirler's baton is made of a slender metal cylinder of mass M and length L. Each end has a rubber cap of mass m and you can accurately treat each cap as a particle in this problem. Find the total moment of inertia of the baton about the usual twirling axis (per- pendicular to the baton through its center).
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Chapter1: Units, Trigonometry. And Vectors
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Question
9.35, please write out any formulas used and draw a free body diagram. I do not understand where the inertia formulas are applied
![Homework Part I: Questions about Moments of inertia
9.34 Small blocks, each with mass m, are clamped at the ends and
at the center of a light rod of length L. Compute the moment of iner-
tia of the system about an axis perpendicular to the rod and passing
through a point of the length from one end. You can ignore the
moment of inertia of the light rod.
]=mr²
J= m ( 4 ) ² + m ( ₁ ) ² + (r
m
I =
ML²
9L²
Bb
16
I= mr²
+ML
16
+
11m2²
16
←
9.35 A twirler's baton is made of a slender metal cylinder of mass
M and length L. Each end has a rubber cap of mass m and you can
accurately treat each cap as a particle in this problem. Find the total
moment of inertia of the baton about the usual twirling axis (per-
pendicular to the baton through its center).
Inertia for red with muss ein
Center in thout aver
m ( = 1² + ( = 1²
ML²
12
me' me 2ml | nel hes
< 2mL²
R](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F29d9ecf2-8ea2-4c7b-b874-691941710284%2F79074958-2dc1-4f65-b9a4-97fcaad4c64a%2Fa9rxhi_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Homework Part I: Questions about Moments of inertia
9.34 Small blocks, each with mass m, are clamped at the ends and
at the center of a light rod of length L. Compute the moment of iner-
tia of the system about an axis perpendicular to the rod and passing
through a point of the length from one end. You can ignore the
moment of inertia of the light rod.
]=mr²
J= m ( 4 ) ² + m ( ₁ ) ² + (r
m
I =
ML²
9L²
Bb
16
I= mr²
+ML
16
+
11m2²
16
←
9.35 A twirler's baton is made of a slender metal cylinder of mass
M and length L. Each end has a rubber cap of mass m and you can
accurately treat each cap as a particle in this problem. Find the total
moment of inertia of the baton about the usual twirling axis (per-
pendicular to the baton through its center).
Inertia for red with muss ein
Center in thout aver
m ( = 1² + ( = 1²
ML²
12
me' me 2ml | nel hes
< 2mL²
R
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