Explanation Given information: The figure shown below shows the free body diagram of the system. Figure-(1) Write the expression of the angular velocity of BCD in Cartesian vector format. ω = ϕ sin θ i + θ j + ϕ cos θ k …… (I) Here, the angular velocity of BCD is ϕ . Write the expression for the mass moment of inertia of the disk about x and y axis. I x = I y = 17 4 m a 2 …… (II) Here, the mass of the disk is m and the radius of the disk is a . Write the mass moment of inertia of the disk about z -axis. I z = 1 2 m a 2 …… (III) Write the expression for the angular momentum of the disk about A. H A = I x ω x i + I y ω y j + I z ω z k …… (IV) Here, the mass moment of inertia about the x axis is I x , the angular velocity about x axis ω x , Here, the mass moment of inertia about the y axis is I y , the angular velocity about y axis ω y , Here, the mass moment of inertia about the z axis is I z , the angular velocity about z axis ω z Substitute 17 4 m a 2 for I x , 17 4 m a 2 for I y 1 2 m a 2 for I z , ϕ sin θ for ω x , θ for ω y and ϕ cos θ for ω z in Equation (IV). H A = [ ( 17 4 m a 2 ) ( ϕ sin θ ) i + ( 17 4 m a 2 ) ( − θ ) j + ( 1 2 m a 2 ) ( ϕ cos θ ) k ] = [ 17 4 m a 2 ϕ sin θ i − 17 4 m a 2 θ j + 1 2 m a 2 ϕ cos θ k ] Write the expression for the angular momentum about z -axis. H z = H A ⋅ ( i sin θ + k cos θ ) …… (V) Substitute 17 4 m a 2 ϕ sin θ i − 17 4 m a 2 θ j + 1 2 m a 2 ϕ cos θ k for H A in Equation (V). H z = ( 17 4 m a 2 ϕ sin θ i − 17 4 m a 2 θ j + 1 2 m a 2 ϕ cos θ k ) ⋅ ( i sin θ + k cos θ ) = 17 4 m a 2 ϕ sin 2 θ + 1 2 m a 2 ϕ cos 2 θ = 1 4 m a 2 ϕ ( 17 sin 2 θ + 2 cos 2 θ ) = 1 4 m a 2 ϕ ( 15 sin 2 θ + 2 ( sin 2 θ + cos 2 θ ) ) H z = 1 4 m a 2 ϕ ( 15 sin 2 θ + 2 ) Apply the initial conditions To determine (b) The initial angular velocity.

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ISBN: 9781259977305

Author: BEER, Ferdinand P. (ferdinand Pierre), Johnston, E. Russell (elwood Russell), Cornwell, Phillip J., SELF, Brian P.

Publisher: Mcgraw-hill Education,

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Chapter 18.3, Problem 18.135P

To determine

(a)

The minimum value of θ.

To determine

(b)

The initial angular velocity.

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Chapter 18.3, Problem 18.134P

Chapter 18.3, Problem 18.136P

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