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Engineering mechanics: an introduction to dynamics / PDF

646 Pages·2003·126.855 MB·English
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• ENGINEERING MECHANICS AN INTRODUCTION TO • DYNAMICS • ENGINEERING MECHANICS Fourth Edition • AN INTRODUCTION TO • DYNAMICS DAVID J. MCGILL AND WILTON W. KING Professors Emeritus, Georgia Institute of Technology Copyright © 2003 by David J. McGill and Wilton W. King All rights reserved. No part of this book may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means —electronic, mechanical, photocopying, recording, or otherwise—without prior written permission of the authors. For more information, contact: Tichenor Publishing Tichenor Publishing 5005 North State Road 37 Business Bloomington, IN 47404-1626 Division of T.I.S., Inc. To OUR WIVES, CAROLYN AND KAY CONTENTS PREFACE xi 1 KINEMATICS OF MATERIAL POINTS OR PARTICLES 1 1.1 Introduction, 2 1.2 Reference Frames and Vector Derivatives, 3 Position, Velocity, and Acceleration, 6 1.4 Kinematics of a Point in Rectilinear Motion, 8 1.5 Rectangular Cartesian Coordinates, 24 1.6 Cylindrical Coordinates, 31 1.7 Tangential and Normal Components, 43 Summary, 53 Review Questions, 54 2 KINETICS OF PARTICLES AND OF MASS CENTERS OF BODIES 55 2.1 Introduction, 56 2.2 Newton's Laws and Euler's First Law, 56 2.3 Motions of Particles and of Mass Centers of Bodies, 62 2.4 Work and Kinetic Energy for Particles, 87 2.5 Momentum Form of Euler's First Law, 101 2.6 Euler's Second Law (The Moment Equation), 117 Summary, 125 Review Questions, 128 3 KINEMATICS OF PLANE MOTION OF A RIGID BODY 129 3.1 Introduction, 130 3.2 Velocity and Angular Velocity Relationship for Two Points of the Same Rigid Body, 134 3.3 Translation, 147 3.4 Instantaneous Center of Zero Velocity, 149 3.5 Acceleration and Angular Acceleration Relationship for Two Points of the Same Rigid Body, 163 vii Page viii 3.6 Rolling, 170 3.7 Relationship Between the Velocities of a Point with Respect to Two Different Frames of Reference, 198 3.8 Relationship Between the Accelerations of a Point with Respect to Two Different Frames of Reference, 207 Summary, 215 Review Questions, 216 KINETICS OF A RIGID BODY IN PLANE MOTION/ DEVELOPMENT AND SOLUTION OF THE DIFFERENTIAL EQUATIONS GOVERNING THE MOTION 217 4.1 Introduction, 218 4.2 Rigid Bodies in Translation, 219 Moment of Momentum (Angular Momentum), 227 Moments and Products of Inertia/The Parallel-Axis Theorems, 229 4.5 The Mass-Center Form of the Moment Equation of Motion, 246 4.6 Other Useful Forms of the Moment Equation, 272 4.7 Rotation of Unbalanced Bodies, 291 Summary, 301 Review Questions, 303 5 SPECIAL INTEGRALS OF THE EQUATIONS OF PLANE MOTION OF RIGID BODIES: WORK-ENERGY AND IMPULSE-MOMENTUM METHODS 304 5.1 Introduction, 305 5.2 The Principle(s) of Work and Kinetic Energy, 305 5.3 The Principles of Impulse and Momentum, 343 Summary, 375 Review Questions, 377 6 KINEMATICS OF A RIGID BODY IN THREE-DIMENSIONAL MOTION 379 Introduction, 380 Relation Between Derivatives/The Angular Velocity Vector, 380 6.3 Properties of Angular Velocity, 384 6.4 The Angular Acceleration Vector, 398 6.5 Velocity and Acceleration in Moving Frames of Reference, 401 The Earth as a Moving Frame, 410 Velocity and Acceleration Equations for Two Points of the Same Rigid Body, 414 6.8 Describing the Orientation of a Rigid Body, 428 6.9 Rotation Matrices, 434 Summary, 441 Review Questions, 442 iPage x 7 KINETICS OF A RIGID BODY IN GENERAL MOTION 444 7.1 Introduction, 445 7.2 Moment of Momentum {Angular Momentum) in Three Dimensions, 446 7.3 Transformations of Inertia Properties, 448 7.4 Principal Axes and Principal Moments of Inertia, 455 7.5 The Moment Equation Governing Rotational Motion, 472 7.6 Gyroscopes, 492 7.7 Impulse and Momentum, 499 7.8 Work and Kinetic Energy, 504 Summary, 513 Review Questions, 514 8 SPECIAL TOPICS 516 8.1 Introduction, 517 8.2 Introduction to Vibrations, 517 8.3 Euler's Law for a Control Volume, 535 8.4 Central Force Motion, 543 Review Questions, 554 APPENDICES CONTENTS 557 Appendix A UNITS, 558 Appendix B EXAMPLES OF NUMERICAL ANALYSIS/THE NEWTON- RAPHSON METHOD, 564 Appendix C MOMENTS OF INERTIA OF MASSES, 567 Appendix D ANSWERS TO ODD-NUMBERED PROBLEMS, 573 INDEX, 583 SUPPLEMENTARY PROBLEMS 589

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Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.