Explanation Given information: The angular velocity of the shaft is 16 rad / s , the initial value of θ is θ 0 = 90 ° , the mass of the circular plate is m . The figure shows the O xyz principle plane and x , y , z axis. Figure-(1) Write the expression of unit vector along Z -axis. K = − i ^ sin θ + k cos θ ..... (I) Here, the unit vector along x -axis is i ^ , the unit vector along z -axis is k , the angle between Z -axis and z -axis is θ . Write the expression for angular velocity ω . ω = ϕ ˙ K + θ ˙ j ^ ….. (II) Here, the angular velocity is ω , the rate of precession is ϕ ˙ , the unit vector along y -axis is j ^ . Substitute − i sin θ + cos θ k for K ω = ϕ ˙ ( − i sin θ + cos θ k ) + θ ˙ j = − ϕ ˙ sin θ ˙ i + θ ˙ j + ϕ cos θ k ....... (III) Write the relation for moment of inertia about x -axis. I x = e 1 I y ....... (IV) Write the relation for moment of inertia about z -axis. I z = e 2 I y ....... (V) Write the expression to calculate the momentum about O . H o = I x ω x i ^ + I y ω y j ^ + I z ω z k ^ ....... (VI) Here the moment of inertia about x axis is I x , the moment of inertia about y axis is I y , the moment of inertia about z axis is I z the angular velocity about x direction is ω x , the angular velocity about y direction is ω y the angular velocity about z direction is ω z . Substitute e 1 I y for I x , − ϕ ˙ sin θ for ω x , 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 ^ + ( θ I y ) ( ϕ ˙ cos θ ) k ^ = I y ( − e 1 ϕ ˙ sin θ i ^ + θ j ^ + θ ϕ ˙ cos θ k ^ ) ....... (VII) The moment about the fixed Z axis is 0 hence H O K is constant. H O K = I y C 1 To determine (b) The maximum value of θ ˙

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Chapter 18.3, Problem 18.131P

To determine

(a)

The minimum value of ϕ˙.

To determine

(b)

The maximum value of θ˙

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Chapter 18.3, Problem 18.130P

Chapter 18.3, Problem 18.132P

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