Explanation The figure shown below shows the free body diagram of the system. Figure-(1) Expression for angular velocity of the frame with y axis pointing in to the paper. Ω = − ϕ sin θ i + θ j + ϕ cos θ k ...... (I) Expression for the angular velocity of the top. ω = − ϕ sin θ i + θ ϕ j + ( ψ + ϕ cos θ ) k ...... (II) Expression for the angular momentum about O . H o = I x ω x i + I y ω y j + I z ω z k ...... (III) Let us assume I x = I ′ = I y and I z = I . Substitute − ϕ sin θ for ω x , θ ϕ for ω y , ( ψ + ϕ cos θ ) for ω z , I ′ for I x , I ′ for I y and I in Equation (III). H o = I ′ ( − ϕ sin θ ) i + I ′ ( θ ϕ ) j + I ( ψ + ϕ cos θ ) k ...... (IV) The fixed z -axis is a Newtonian frame of reference hence ( M 0 ) z = 0 and ( H 0 ) z = constant . ( H 0 ) z = H 0 ( − i sin θ + k cos θ ) ...... (V) Substitute I ′ ( − ϕ sin θ ) i + I ′ ( θ ϕ ) j + I ( ψ + ϕ cos θ ) k for H o in Equation (V). ( H 0 ) z = [ ( I ′ ( − ϕ sin θ ) i + I ′ ( θ ϕ ) j + I ( ψ + ϕ cos θ ) k ) ( − i sin θ + k cos θ ) ] I ′ ϕ sin 2 θ + I ( ψ + ϕ cos θ ) cos θ = α ...... (VI) Here, the constant is α . Expression for the momentum M 0 about 0 . M 0 = m g l sin θ j ...... (VII) Relation between rate of change of angular momentum and the linear momentum. M 0 = d d t ( H 0 ) + Ω H 0 ...... (VIII) Substitute m g l sin θ j for M 0 , − ϕ sin θ i + θ j + ϕ cos θ k for Ω and I ′ ( − ϕ sin θ ) i + I ′ ( θ ϕ ) j + I ( ψ + ϕ cos θ ) k for H 0 in Equation (VIII) To determine (b) ϕ is a function of θ

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Chapter 18.3, Problem 18.137P

To determine

(a)

The Expression I(ψ+ϕcosθ)=β.

To determine

(b)

ϕ is a function of θ

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Chapter 18.3, Problem 18.136P

Chapter 18.3, Problem 18.138P

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