Explanation Given: The weight of the rod, W = 4 lb . The angular velocity of the rod B C , ω = 2 rad / s . Conclusion: Express the velocity of rod at A in vector form. v A = υ A i (I) Express the velocity of rod at B in vector form. v B = − ω j (II) Substitute 2 rad / s for ω in Equation (II). v B = { − 2 j } ft / s Calculate the angular velocity of rod A B . ω A B = ω x i + ω y j + ω z k (III) Express the distance about B with respect to A . r B / A = { − 3 i + 1 j + 1 k } ft Express the distance about B with respect to G . r G / B = { 1.5 i − 0.5 j − 0.5 k } ft Express the velocity of rod at B . v B = v A + ω A B × r B / A (IV) Substitute { − 2 j } ft / s for v B , υ A i for v A , { − 3 i + 1 j + 1 k } ft for r B / A and { 1.5 i − 0.5 j − 0.5 k } ft for r G / B in Equation (IV). − 2 j = υ A i + { − 3 i + 1 j + 1 k } { 1.5 i − 0.5 j − 0.5 k } − 2 j = υ A i + | i j k ω x ω y ω z − 3 1 1 | (V) Equate i , j , and k components from Equation (V). ω y − ω z + υ A = 0 (VI) ω x + 3 ω z = 2 (VII) ω x + 3 ω y = 0 (VIII) As the angular velocity of rod A B , ω A B is perpendicular to the axis of the rod, ω A B r B / A (IX) Substitute ω x i + ω y j + ω z k for ω A B and { − 3 i + 1 j + 1 k } ft for r B / A in Equation (IX). ω A B r B / A = ( ω x i + ω y j + ω z k ) ( − 3 i + 1 j + 1 k ) 0 = − 3 ω x + 1 ω y + 1 ω z (X) Solve Equations (VI), (VII), (VIII) and (X) simultaneously by online calculator to get, ω x = 0.1818 rad / s ω y = − 0.0606 rad / s ω z = 0.6061 rad / s υ A = 0.6667 ft / s Substitute 0

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Chapter 21.3, Problem 31P

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The kinetic energy of AB when it is in the given position.

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Chapter 21 Solutions

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Ch. 21.1 - Show that the sum of the moments of inertia of a...Ch. 21.1 - Determine the moment of inertia of the cone with...Ch. 21.1 - Determine moment of inertia Iy of the solid formed...Ch. 21.1 - Determine the moments of inertia Ix and Iy of the...Ch. 21.1 - The density of the material is . Express the...Ch. 21.1 - Prob. 6P Ch. 21.1 - Prob. 7P Ch. 21.1 - Prob. 8P Ch. 21.1 - The weight of the cone is 15 lb, the height is h =...Ch. 21.1 - The density of the material is .

Ch. 21.1 - Prob. 11P Ch. 21.1 - Determine the moment of inertia Ixx of the...Ch. 21.1 - Determine the product of inertia Iyz of the...Ch. 21.1 - Prob. 14P Ch. 21.1 - Prob. 15P Ch. 21.1 - Determine the moment of inertia of the rod about...Ch. 21.1 - Prob. 17P Ch. 21.1 - Prob. 18P Ch. 21.1 - Prob. 19P Ch. 21.1 - Prob. 20P Ch. 21.1 - Prob. 21P Ch. 21.3 - If a body contains no planes of symmetry, the...Ch. 21.3 - Prob. 23P Ch. 21.3 - Prob. 24P Ch. 21.3 - The large gear has a mass of 5 kg and a radius of...Ch. 21.3 - Prob. 26P Ch. 21.3 - Prob. 27P Ch. 21.3 - Prob. 28P Ch. 21.3 - Prob. 29P Ch. 21.3 - Prob. 30P Ch. 21.3 - Prob. 31P Ch. 21.3 - Prob. 32P Ch. 21.3 - The 20-kg sphere rotates about the axle with a...Ch. 21.3 - The 200-kg satellite has its center of mass at...Ch. 21.3 - Prob. 35P Ch. 21.3 - Prob. 36P Ch. 21.3 - Prob. 37P Ch. 21.3 - Prob. 38P Ch. 21.3 - Prob. 39P Ch. 21.3 - Prob. 40P Ch. 21.4 - Derive the scalar form of the rotational equation...Ch. 21.4 - Prob. 42P Ch. 21.4 - Prob. 43P Ch. 21.4 - Prob. 44P Ch. 21.4 - The disk has a weight of 15 lb. Neglect the weight...Ch. 21.4 - Prob. 46P Ch. 21.4 - Prob. 47P Ch. 21.4 - Prob. 48P Ch. 21.4 - Prob. 49P Ch. 21.4 - Prob. 50P Ch. 21.4 - Prob. 51P Ch. 21.4 - The 5-kg circular disk is mounted off center on a...Ch. 21.4 - Prob. 53P Ch. 21.4 - Prob. 54P Ch. 21.4 - Prob. 55P Ch. 21.4 - The 4-kg slender rod AB is pinned at A and held at...Ch. 21.4 - Prob. 57P Ch. 21.4 - Prob. 58P Ch. 21.4 - Prob. 59P Ch. 21.4 - Show that the angular velocity of a body, in terms...Ch. 21.4 - Prob. 61P Ch. 21.6 - The gyroscope consists of a uniform 450-g disk D...Ch. 21.6 - Prob. 63P Ch. 21.6 - Prob. 64P Ch. 21.6 - Prob. 65P Ch. 21.6 - When viewed from the front of the airplane, the...Ch. 21.6 - Prob. 67P Ch. 21.6 - Prob. 68P Ch. 21.6 - Prob. 69P Ch. 21.6 - Prob. 70P Ch. 21.6 - Prob. 71P Ch. 21.6 - Prob. 72P Ch. 21.6 - Prob. 73P Ch. 21.6 - Prob. 74P Ch. 21.6 - Prob. 75P Ch. 21.6 - Prob. 76P Ch. 21.6 - Prob. 77P Ch. 21.6 - Prob. 78P

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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 kinetic energy of A B when it is in the given position.

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The kinetic energy of AB when it is in the given position.

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