Explanation Given: The mass of the rods, m = 0.75 kg / m . The angular velocity, ω = 8 rad / s . Show the free body diagram of the system as in Figure (1). Conclusion: Express the angular velocity of the rod. Ω = ω = 8 k Express the angular velocity with respect to x , y axis. ω x = ω y = 0 Express the angular velocity with respect to z axis. ω z = 8 rad / s Express the angular acceleration along x , y axes. ω ˙ x = ω ˙ y = 0 Express the angular acceleration along z axes. ω ˙ z = ω ˙ z Due to symmetry about the axis, write the product of mass moment of inertia about x , y , z axes. I x z = 0 I x y = 0 Express the product of mass moment of inertia. I y z = m ( 1 ) ( 2 ) ( 0.5 ) (I) Substitute 0 .75 kg / m for m in Equation (I). I y z = 0.75 ( 1 ) ( 2 ) ( 0.5 ) = 0.75 kg ⋅ m 2 Express the product of mass moment of inertia. I z z = 1 3 m ( 1 ) ( 1 ) 2 (II) Substitute 0 .75 kg / m for m in Equation (II). I z z = 1 3 ( 0.75 ) ( 1 ) ( 1 ) 2 = 0.25 kg ⋅ m 2 Express the moment of equations with respect to x , y , z axes. ∑ M x = I y z ω z 2 ∑ M y = − I y z ω ˙ z ∑ M z = I z z ω ˙ z Express the component of reaction at support along y axes

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Engineering Mechanics: Dynamics Study (Book and Pearson eText)

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