(a) Explanation Given information: The initial angle that the disk lies is 40 ° . The value of θ ˙ 0 is 0. The angular velocity of the shaft ( ϕ ˙ 0 ) is 16 rad/s . Calculation: Place the origin at the mass center and say O x y z be a principal axis frame of reference with the y axis directed along the moving axle AB . Consider Z axis lie along the fixed axle. Use the unit vectors of i, j, and k along the x , y , z axes, and K along the Z axis. Draw the free body diagram of the disk as in Figure (1). Draw the free body diagram of vector notation as in Figure (2). Write the expression for the unit vector K. K = − i sin θ + k cos θ Write the expression for the angular velocity. ω = ϕ ˙ K + θ ˙ j Substitute − i sin θ + k cos θ for K. ω = ϕ ˙ ( − i sin θ + k cos θ ) + θ ˙ j = − ϕ ˙ sin θ i + θ ˙ j + ϕ ˙ cos θ k Write the expression for the angular momentum about point O . H O = I x ω x i + I y ω y j + I z ω z k Substitute e 1 I y for I x , − ϕ ˙ sin θ for ω x , θ ˙ for ω y , e 2 I y for I z , and ϕ ˙ cos θ for ω z . H O = e 1 I y ( − ϕ ˙ sin θ ) i + I y θ ˙ j + e 2 I y ϕ ˙ cos θ k = I y ( − ϕ ˙ sin θ e 1 i + θ ˙ j + e 2 ϕ ˙ cos θ k ) The moment about fixed Z axis is zero. Determine the value of H O ⋅ K . Substitute I y ( − ϕ ˙ sin θ e 1 i + θ ˙ j + e 2 ϕ ˙ cos θ k ) for H O and − i sin θ + k cos θ for K. H O ⋅ K = I y ( − ϕ ˙ sin θ e 1 i + θ ˙ j + e 2 ϕ ˙ cos θ k ) . ( − i sin θ + k cos θ ) = I y ( ϕ ˙ e 1 sin 2 θ + ϕ ˙ e 2 cos 2 θ ) = I y ( e 1 sin 2 θ + e 2 cos 2 θ ) ϕ ˙ Determine the constant C 1 value using the relation. H O ⋅ K = I y C 1 Substitute I y ( e 1 sin 2 θ + e 2 cos 2 θ ) ϕ ˙ for H O ⋅ K in Equation (1). I y ( e 1 sin 2 θ + e 2 cos 2 θ ) ϕ ˙ 0 = I y C 1 C 1 = ( e 1 ( 1 − cos 2 θ ) + e 2 cos 2 θ ) ϕ ˙ 0 (1) Determine the value of twice the kinetic energy 2 T . 2 T = I x ω x 2 + I y ω y 2 + I z ω z 2 Substitute e 1 I y for I x , − ϕ ˙ sin θ for ω x , θ ˙ for ω y , e 2 I y for I z , and ϕ ˙ cos θ for ω z (b) To determine The minimum value of ϕ ˙ min . (c) To determine The maximum value of θ ˙ max .

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Author: BEER

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Free Damped Vibrations

Free vibration is a type of vibration in which the external force is removed after giving the initial displacement to a body/system. In other words, in this type of vibration, force is applied at the initial displacement of the system, and after the init…

Question

Chapter 18.3, Problem 18.132P

(a)

To determine

The range of values of θ.

(b)

To determine

The minimum value of ϕ˙min.

(c)

To determine

The maximum value of θ˙max.

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Chapter 18.3, Problem 18.131P

Chapter 18.3, Problem 18.133P

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Chapter 18 Solutions

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Ch. 18.1 - A thin, homogeneous disk of mass m and radius r...Ch. 18.1 - Prob. 18.2P Ch. 18.1 - Prob. 18.3P Ch. 18.1 - A homogeneous disk of weight W = 6 lb rotates at...Ch. 18.1 - A homogeneous disk of mass m = 8 kg rotates at the...Ch. 18.1 - A solid rectangular parallelepiped of mass m has a...Ch. 18.1 - Prob. 18.8P Ch. 18.1 - Determine the angular momentum HD of the disk of...Ch. 18.1 - Prob. 18.10P Ch. 18.1 - Determine the angular momentum HO of the disk of...

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The range of values of θ .

Solution Summary: The author explains the range of values of theta for ensuing motion and the angular velocity of the shaft.

Concept explainers

The range of values of θ.

The minimum value of ϕ˙min.

The maximum value of θ˙max.

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Chapter 18 Solutions