Engineering Mechanics
Statics and Dynamics
4th Edition
Published on 14. August 1996
Book
Hardback
2101 pages
978-0-13-356924-7 (ISBN)
Description
For Combined Statics and Dynamics courses.
This edition of the highly respected and well-known book for Engineering Mechanics focuses on developing a solid understanding of basic principles rather than rote learning of specific methodologies. It covers fundamental principles instead of "cookbook" problem-solving, and has been refined to make it more readable. It includes over 500 new problems rigorously checked for accuracy. Statics topics covered include fundamentals of mechanics, elements of vector algebra, important vector quantities, equivalent force systems, equations of equilibrium, introduction to structural mechanics, friction forces, properties of surfaces, moments and products of inertia, and methods of virtual work and stationary potential energy. Dynamics topics include kinematics of a particle, particle dynamics, energy methods for particles, methods of momentum for particles, kinematics of rigid bodies, kinetics of plane motion of rigid bodies, energy and impulse-momentum methods for rigid bodies, dynamics of general rigid-body motion, and vibrations.
This edition of the highly respected and well-known book for Engineering Mechanics focuses on developing a solid understanding of basic principles rather than rote learning of specific methodologies. It covers fundamental principles instead of "cookbook" problem-solving, and has been refined to make it more readable. It includes over 500 new problems rigorously checked for accuracy. Statics topics covered include fundamentals of mechanics, elements of vector algebra, important vector quantities, equivalent force systems, equations of equilibrium, introduction to structural mechanics, friction forces, properties of surfaces, moments and products of inertia, and methods of virtual work and stationary potential energy. Dynamics topics include kinematics of a particle, particle dynamics, energy methods for particles, methods of momentum for particles, kinematics of rigid bodies, kinetics of plane motion of rigid bodies, energy and impulse-momentum methods for rigid bodies, dynamics of general rigid-body motion, and vibrations.
More details
Edition
4th edition
Language
English
Place of publication
United States
Publishing group
Pearson Education (US)
Target group
College/higher education
Dimensions
Width: 242 mm
Thickness: 44 mm
Weight
1997 gr
ISBN-13
978-0-13-356924-7 (9780133569247)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Other editions
Previous edition
Book
10/1996
4th Edition
Pearson Education (US)
€60.65
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Content
Preface.
1. Fundamentals of Mechanics Review I.
2. Elements of Vector Algebra Review II.
3. Important Vector Quantities.
4. Equivalent Force Systems.
5. Equations of Equilibrium.
6. Introduction to Structural Mechanics.
7. Friction Forces.
8. Properties of Surfaces.
9. Moments and Products of Inertia.
10. Methods of Virtual Work and Stationary Potential Energy.
11. Kinematics of a Particle - Simple Relative Motion.
12. Particle Dynamics.
13. Energy Methods for Particles.
14. Methods of Momentum for Particles.
15. Kinematics of Rigid Bodies: Relative Motion.
16. Kinetics of Plane Motion of Rigid Bodies.
17. Energy and Impulse-Momentum Methods for Rigid Bodies.
18. Dynamics of General Rigid-Body Motion.
19. Vibrations.
Appendix I. Integration Formulas.
Appendix II. Computation of Principal Moments of Inertia.
Appendix III. Additional Data For the Ellipse.
Appendix IV. Proof that Infinitesimal Rotations Are Vectors.
1. Fundamentals of Mechanics Review I.
2. Elements of Vector Algebra Review II.
3. Important Vector Quantities.
4. Equivalent Force Systems.
5. Equations of Equilibrium.
6. Introduction to Structural Mechanics.
7. Friction Forces.
8. Properties of Surfaces.
9. Moments and Products of Inertia.
10. Methods of Virtual Work and Stationary Potential Energy.
11. Kinematics of a Particle - Simple Relative Motion.
12. Particle Dynamics.
13. Energy Methods for Particles.
14. Methods of Momentum for Particles.
15. Kinematics of Rigid Bodies: Relative Motion.
16. Kinetics of Plane Motion of Rigid Bodies.
17. Energy and Impulse-Momentum Methods for Rigid Bodies.
18. Dynamics of General Rigid-Body Motion.
19. Vibrations.
Appendix I. Integration Formulas.
Appendix II. Computation of Principal Moments of Inertia.
Appendix III. Additional Data For the Ellipse.
Appendix IV. Proof that Infinitesimal Rotations Are Vectors.