Explanation Given information: The figure below shows the free body diagram of the axle A D . Figure-(1) Write the expression for the angular velocity of C D . ω = ω 1 sin β i + ( ω 1 cos β + ω 2 ) j …… (I) Here, the angular velocity of the shaft D E is ω 1 , angular velocity of the shaft A D is ω 2 and the angle between the shafts is β . Write the expression for the position vector. D C → = − r i − L j …… (II) Here, radius of gear A is r and the length of the rod AD is L . Write the expression for the velocity of point C . v C = ω × D C → …… (III) Substitute 0 for v C , ω 1 sin β i + ( ω 1 cos β + ω 2 ) j for ω and − r i − L j for D C → in Equation (III). 0 = ( ω 1 sin β i + ( ω 1 cos β + ω 2 ) j ) × ( − r i − L j ) − ω 1 L sin β + ( ω 1 cos β + ω 2 ) r = 0 ω 1 cos β + ω 2 = ω 1 sin β L r …… (IV) Substitute ω 1 sin β L r for ω 1 cos β + ω 2 in Equation (I). ω = ω 1 sin β i + ( ω 1 sin β L r ) j ω = ω 1 sin β ( i + L r ) j …… (V) Write the expression for the mass moment of inertia of gear A about x -axis. I x = m ( L 2 + r 2 4 ) …… (VI) Here, the mass of gear is m . Write the expression ofr the mass moment of inertia of gear A about y -axis. I y = m r 2 2 …… (VII) Write the expression for the angular momentum about D . H D = I x ω x i + I y ω y j …… (VIII) Substitute m ( L 2 + r 2 4 ) for I x , ω 1 sin β for ω x m r 2 2 for I y and ω 1 sin β L r for ω y in Equation (VIII). H D = m ( L 2 + r 2 4 ) ( ω 1 sin β ) i + ( m r 2 2 ) ( ω 1 sin β L r ) j H D = m ω 1 sin β [ ( L 2 + r 2 4 ) i + r L 2 j ] …… (IX) The point D is fixed hence the rate of change of angular momentum is 0 . ( H ˙ D ) x y z = 0 …… (X) Write the expression of moment about the point D . ∑ M D = ( H ˙ D ) x y z + Ω × H D …… (XI) Substitute 0 for ( H ˙ D ) x y z ω 1 sin β i + ω 1 cos β j for Ω and m ω 1 sin β [ ( L 2 + r 2 4 ) i + r L 2 j ] for H D in Equation (XI). ∑ M D = 0 + ( ω 1 sin β i + ω 1 cos β j ) × ( m ω 1 sin β [ ( L 2 + r 2 4 ) i + r L 2 j ] ) ∑ M D = m ω 1 2 sin β [ r L 2 sin β − ( L 2 + r 2 4 ) cos β ] k …… (XII) The figure shown below shows the FBD of the system

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Author: BEER

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Chapter 18.2, Problem 18.89P

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The force exerted by gear B on gear A

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Chapter 18.2, Problem 18.88P

Chapter 18.2, Problem 18.90P

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The force exerted by gear B on gear A

Solution Summary: The author shows the free body diagram of the axle AD. Write the expression for the angular velocity of DE and the angle between the shafts.

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The force exerted by gear B on gear A

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Chapter 18 Solutions