Explanation Given information: Initial values θ 0 = 45 0 θ . 0 = 0 ϕ . 0 = 8 r a d / s Calculations: Free body diagram. The unit vectors along x, y and z are i, j and k respectively. Equation for k. k = − i sin θ + cos θ k Now, the angular velocity. ω = ϕ . k + θ . j ω = ϕ . ( − i sin θ + cos θ k ) + θ . j Angular moment about origin. H 0 = I x ω x i + I y ω y j + I z ω z k H 0 = ( e 1 I y ) ( − ϕ . sin θ ) i + I y θ . j + ( e 2 I y ) ( ϕ . cos θ ) k Moment about the fixed axis z is zero. So H 0 k is constant. H 0 k = I y C 1 Where C 1 is constant. Putting the value of H 0 and k, ( ( e 1 I y ) ( − ϕ . sin θ ) i + I y θ . j + ( e 2 I y ) ( ϕ . cos θ ) k ) ( − i sin θ + cos θ k ) = I y C 1 C 1 = e 1 ϕ . sin 2 θ + e 2 ϕ . cos 2 θ ϕ 0 = C 1 e 1 sin 2 θ + e 2 cos 2 θ F o r i n i t i a l c o n d i t i o n C 1 = ( e 1 sin 2 θ 0 + e 2 cos 2 θ 0 ) ϕ To determine (b) Minimum value of ϕ . . To determine (c) Maximum value of θ . .

12th Edition

ISBN: 9781259977237

Author: BEER

Publisher: MCG

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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 18.133P

To determine

(a)

The range of value of θ.

To determine

(b)

Minimum value of ϕ..

To determine

(c)

Maximum value of θ..

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Chapter 18.3, Problem 18.132P

Chapter 18.3, Problem 18.134P

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