Explanation Given: The angular velocity, ω 1 = 5 rad/s . The angular velocity, ω 2 = 2 rad/s . The angular acceleration, ω ˙ 1 = 2 rad/s 2 . The angular acceleration, ω ˙ 2 = 3 rad/s 2 . The angle of industrial manipulator, θ = 30 ° . The angle of B to z − axis , ϕ = 45 ° The distance from B to A , r = 1.6 m . The distance from B to x − axis , r 2 = 1.2 m . Write the expression position of the point measured from the fixed point. r B = r 2 sin θ j → + r 2 cos θ k → (I). Write the expression of the velocity of point B . v → B = ( r ˙ B ) x y z + ω 1 × r B (II) Write the expression of the acceleration of point B . a → B = [ ( r ¨ B ) x y z + ω 1 × ( r ˙ B ) x y z ] + ω ˙ 1 × r B + ( ω 1 × v → B ) (III) Write the expression position of the point measured from the fixed point. r A / B = r cos ϕ j → + r sin ϕ k → (IV). Write the expression of the velocity of A with respect to B by rotating x , y , z frame of reference. ( v → A / B ) x y z = ( r ˙ A / B ) x y z + ω 2 × r A / B (V) Write the expression of the acceleration of A with respect to B by rotating x , y , z frame of reference. ( a → A / B ) x y z = [ ( r ¨ A / B ) x y z + ω 2 × ( r ˙ A / B ) x y z ] + ω ˙ 2 × r A / B + ω 2 × v → A / B (VI) Here, x , y , z for the translating-rotating frame of reference, x ′ , y ′ , z ′ for the second translating-rotating frame of reference, ( r ˙ A / B ) for second time derivative position of the point measured from the fixed point, and ( r ¨ A / B ) for third time derivative position of the point measured from the fixed point. Write the expression of the velocity. v → A = v → B + ω 1 × r A / B + ( v → A / B ) x y z (VII) Write the expression of the acceleration. a → A = a → B + ω ˙ 1 × r A / B + ω 1 × ( ω 1 × r A / B ) + 2 ω 1 × ( v → A / B ) x y z + ( a → A / B ) x y z (VIII) Conclusion: Substitute 1.2 m for r 2 , and 30 ° for θ in Equation (I). r B = 1.2 sin 30 ° j → + 1.2 cos 30 ° k → = ( 0.6 j → + 1.0392 k → ) m Substitute 5 rad/s for ω 1 , 0 for ( r ˙ B ) x y z , and 0.6 j → + 1.0392 k → for r B in Equation (II). v → B = 0 + 5 k → × ( 0.6 j → + 1.0392 k → ) = ( − 3 i → ) m/s Substitute 5 rad/s for ω 1 , 2 rad/s for ω ˙ 1 , 0 for ( r ˙ B ) x y z , 0 for ( r ¨ B ) x y z , − 3 j → m/s for v → B and 0.6 j → + 1.0392 k → for r B in Equation (III). a → B = 0 + ( 5 k → ) × 0 + 2 k → × ( 0.6 j → + 1.0392 k → ) + ( 5 k → ) × ( − 3 i → ) = ( − 1.2 i → − 15 j → ) m/s 2 Substitute 1

Engineering Mechanics: Dynamics (14th Edition)

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ISBN: 9780133915389

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Chapter 20.4, Problem 47P

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The acceleration of grip A .

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Chapter 20.4, Problem 46P

Chapter 20.4, Problem 48P

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0 = 6 a = 25 t = 3 Y b = 30 x

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b = 25 y t = 2 a=10 C = 25

Chapter 20 Solutions

Engineering Mechanics: Dynamics (14th Edition)

Ch. 20.3 - Prob. 1P Ch. 20.3 - Prob. 2P Ch. 20.3 - Prob. 3P Ch. 20.3 - Prob. 4P Ch. 20.3 - Prob. 5P Ch. 20.3 - Prob. 6P Ch. 20.3 - Prob. 7P Ch. 20.3 - The disk rotates about the shaft S, while the...Ch. 20.3 - The electric fan is mounted on a swivel support...Ch. 20.3 - Prob. 11P

Ch. 20.3 - Prob. 12P Ch. 20.3 - The right circular cone rotates about the z axis...Ch. 20.3 - Prob. 14P Ch. 20.3 - Prob. 15P Ch. 20.3 - Prob. 16P Ch. 20.3 - Prob. 17P Ch. 20.3 - Prob. 18P Ch. 20.3 - Prob. 20P Ch. 20.3 - Prob. 21P Ch. 20.3 - Prob. 22P Ch. 20.3 - Prob. 23P Ch. 20.3 - Prob. 24P Ch. 20.3 - Prob. 25P Ch. 20.3 - Rod AB is attached to collars at its ends by using...Ch. 20.3 - Rod AB is attached to collars at its ends by using...Ch. 20.3 - If the rod is attached with ball-and-socket joints...Ch. 20.3 - Prob. 29P Ch. 20.3 - If collar A has a speed vA = 4 m/s, determine the...Ch. 20.3 - Prob. 31P Ch. 20.3 - If the collar A in Prob. 20-31 has a deceleration...Ch. 20.3 - Prob. 33P Ch. 20.3 - Rod CD is attached to the rotating arms using...Ch. 20.3 - Prob. 35P Ch. 20.3 - Prob. 36P Ch. 20.4 - So1ve Example 20.5 such that the x, y, z axes move...Ch. 20.4 - Prob. 38P Ch. 20.4 - Prob. 39P Ch. 20.4 - At the instant = 60, the construction lift is...Ch. 20.4 - Prob. 41P Ch. 20.4 - Prob. 42P Ch. 20.4 - Prob. 43P Ch. 20.4 - Prob. 44P Ch. 20.4 - Prob. 45P Ch. 20.4 - Prob. 46P Ch. 20.4 - Prob. 47P Ch. 20.4 - At the given instant the rod is turning about the...Ch. 20.4 - Prob. 49P Ch. 20.4 - Prob. 50P Ch. 20.4 - Prob. 51P Ch. 20.4 - Prob. 52P Ch. 20.4 - Prob. 53P Ch. 20.4 - At the instant shown, the arm AB is rotating about...

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Dynamics - Lesson 1: Introduction and Constant Acceleration Equations; Author: Jeff Hanson;https://www.youtube.com/watch?v=7aMiZ3b0Ieg;License: Standard YouTube License, CC-BY

The velocity of grip A . The acceleration of grip A .

Solution Summary: The author explains how to determine the velocity of grip A and its acceleration, and the angle of industrial manipulator theta =30°.

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The velocity of grip A . The acceleration of grip A .

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The velocity of grip A .

The acceleration of grip A .