Vector mechanics for engineers. Dynamics /
Beer, Ferdinand P. 1915-2003,
Vector mechanics for engineers. Dynamics / Dynamics Ferdinand P. Beer (Late of Lehigh University), E. Russell Johnston, Jr. (Late of University of Connecticut), Phillip J. Cornwell (Rose-Hulman Institute of Technology), Brian P. Self (California Polytechnic State University-San Luis Obispo). - Twelfth edition. - xxix, pages 616-1432,A-48,AN-11,I-10 pages : illustrations ; 27 cm
Appendices = pages A-1 through A-48. Answers to Problems = pages AN-1 through AN-11. Index = pages I-1 through I-10. Includes index.
Preface -- Guided tour -- Digital resources -- Acknowledgments -- List of symbols -- 11. Kinematics of Particles. 11.1. Rectilinear motion of particles -- 11.2. Special cases and relative motion -- 11.3. Graphical solutions -- 11.4. Curvilinear motion of particles -- 11.5. Non-rectangular components -- Review and Summary -- Review problems -- 12. Kinetics of Particles : Newton's Second Law. 12.1. Newton's second law and linear momentum -- 12.2. Angular momentum and orbital motion -- 12.3. Applications of central-force motion -- Review and Summary -- Review problems -- 13. Kinetics of Particles : Energy and Momentum Methods. 13.1. Work and energy -- 13.2. Conservation of energy -- 13.3. Impulse and momentum -- 13.4. Impacts -- Review and Summary -- Review problems -- 14. Systems of Particles. 14.1. Applying Newton's second law and momentum principles to systems of particles -- 14.2. Energy and momentum methods for a system of particles -- 14.3. Variable systems of particles -- Review and Summary -- Review problems -- 15. Kinematics of Rigid Bodies. 15.1. Translation and fixed-axis rotation -- 15.2. General plane motion : Velocity -- 15.3. Instantaneous center of rotation -- 15.4. General plane motion : Acceleration -- 15.5. Analyzing motion with respect to a rotating frame -- 15.6. Motion of a rigid body in space -- 15.7. Motion relative to a moving reference frame -- Review and Summary -- Review problems -- 16. Plane Motion of Rigid Bodies : Forces and Accelerations. 16.1. Kinetics of a rigid body -- 16.2. Constrained plane motion -- Review and Summary -- Review problems -- 17. Plane Motion of Rigid Bodies : Energy and Momentum Methods. 17.1. Energy methods for a rigid body -- 17.2. Momentum methods for a rigid body -- 17.3. Eccentric impact -- Review and Summary -- Review problems -- 18. Kinetics of Rigid Bodies in Three Dimensions. 18.1. Energy and momentum of a rigid body -- 18.2. Motion of a rigid body in three dimensions -- 18.3. Motion of a gyroscope -- Review and Summary -- Review problems -- 19. Mechanical Vibrations. 19.1. Vibrations without damping -- 19.2. Free vibrato ins of rigid bodies -- 19.3. Applying the principle of conservation of energy -- 19.4. Forced vibrations -- 19.5. Damped vibrations -- Review and Summary -- Review problems -- Appendix A. Some useful definitions and properties of vector algebra -- Appendix B. Mass moment of inertia -- Appendix C. Fundamentals of engineering examination -- Appendix D. SI unit references -- Answers to problems -- Index -- Properties of geometric shapes.
"A primary objective in a first course in mechanics is to help develop a student's ability first to analyze problems in a simple and logical manner, and then to apply basic principles to their solutions. A strong conceptual understanding of these basic mechanics principles is essential to successfully solving mechanics problems. We hope that this text, as well as the preceding volume, 'Vector Mechanics for Engineers : Statics', will help instructors achieve this goal."--taken from Objective, page xiii.
9781259977305 1259977307 9781260092745 1260092747 9813157860 9789813157866
2017038736
Dynamics.
Vector analysis.
Mechanics, Applied.
Dynamique.
Analyse vectorielle.
kinetics (dynamics)
Dynamics.
Mechanics, Applied.
Vector analysis.
Textbooks.
Textbooks.
TA350 / .B35523 2019
620.1/054
Vector mechanics for engineers. Dynamics / Dynamics Ferdinand P. Beer (Late of Lehigh University), E. Russell Johnston, Jr. (Late of University of Connecticut), Phillip J. Cornwell (Rose-Hulman Institute of Technology), Brian P. Self (California Polytechnic State University-San Luis Obispo). - Twelfth edition. - xxix, pages 616-1432,A-48,AN-11,I-10 pages : illustrations ; 27 cm
Appendices = pages A-1 through A-48. Answers to Problems = pages AN-1 through AN-11. Index = pages I-1 through I-10. Includes index.
Preface -- Guided tour -- Digital resources -- Acknowledgments -- List of symbols -- 11. Kinematics of Particles. 11.1. Rectilinear motion of particles -- 11.2. Special cases and relative motion -- 11.3. Graphical solutions -- 11.4. Curvilinear motion of particles -- 11.5. Non-rectangular components -- Review and Summary -- Review problems -- 12. Kinetics of Particles : Newton's Second Law. 12.1. Newton's second law and linear momentum -- 12.2. Angular momentum and orbital motion -- 12.3. Applications of central-force motion -- Review and Summary -- Review problems -- 13. Kinetics of Particles : Energy and Momentum Methods. 13.1. Work and energy -- 13.2. Conservation of energy -- 13.3. Impulse and momentum -- 13.4. Impacts -- Review and Summary -- Review problems -- 14. Systems of Particles. 14.1. Applying Newton's second law and momentum principles to systems of particles -- 14.2. Energy and momentum methods for a system of particles -- 14.3. Variable systems of particles -- Review and Summary -- Review problems -- 15. Kinematics of Rigid Bodies. 15.1. Translation and fixed-axis rotation -- 15.2. General plane motion : Velocity -- 15.3. Instantaneous center of rotation -- 15.4. General plane motion : Acceleration -- 15.5. Analyzing motion with respect to a rotating frame -- 15.6. Motion of a rigid body in space -- 15.7. Motion relative to a moving reference frame -- Review and Summary -- Review problems -- 16. Plane Motion of Rigid Bodies : Forces and Accelerations. 16.1. Kinetics of a rigid body -- 16.2. Constrained plane motion -- Review and Summary -- Review problems -- 17. Plane Motion of Rigid Bodies : Energy and Momentum Methods. 17.1. Energy methods for a rigid body -- 17.2. Momentum methods for a rigid body -- 17.3. Eccentric impact -- Review and Summary -- Review problems -- 18. Kinetics of Rigid Bodies in Three Dimensions. 18.1. Energy and momentum of a rigid body -- 18.2. Motion of a rigid body in three dimensions -- 18.3. Motion of a gyroscope -- Review and Summary -- Review problems -- 19. Mechanical Vibrations. 19.1. Vibrations without damping -- 19.2. Free vibrato ins of rigid bodies -- 19.3. Applying the principle of conservation of energy -- 19.4. Forced vibrations -- 19.5. Damped vibrations -- Review and Summary -- Review problems -- Appendix A. Some useful definitions and properties of vector algebra -- Appendix B. Mass moment of inertia -- Appendix C. Fundamentals of engineering examination -- Appendix D. SI unit references -- Answers to problems -- Index -- Properties of geometric shapes.
"A primary objective in a first course in mechanics is to help develop a student's ability first to analyze problems in a simple and logical manner, and then to apply basic principles to their solutions. A strong conceptual understanding of these basic mechanics principles is essential to successfully solving mechanics problems. We hope that this text, as well as the preceding volume, 'Vector Mechanics for Engineers : Statics', will help instructors achieve this goal."--taken from Objective, page xiii.
9781259977305 1259977307 9781260092745 1260092747 9813157860 9789813157866
2017038736
Dynamics.
Vector analysis.
Mechanics, Applied.
Dynamique.
Analyse vectorielle.
kinetics (dynamics)
Dynamics.
Mechanics, Applied.
Vector analysis.
Textbooks.
Textbooks.
TA350 / .B35523 2019
620.1/054