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Advanced Engineering Dynamics [[electronic resource]]
| Advanced Engineering Dynamics [[electronic resource]] |
| Autore | Harrison H |
| Pubbl/distr/stampa | Burlington, : Elsevier Science, 1997 |
| Descrizione fisica | 1 online resource (315 p.) |
| Disciplina |
620.1/04 21
620.104 |
| Altri autori (Persone) | NettletonT |
| Soggetto topico |
Dynamics
Dynamics. Mechanics, Applied Mechanics, Applied Civil & Environmental Engineering Engineering & Applied Sciences Civil Engineering |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-281-04706-6
9786611047061 0-08-052335-8 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Advanced Engineering Dynamics; Copyright Page; Contents; Preface; Chapter 1. Newtonian Mechanics; 1.1 Introduction; 1.2 Fundamentals; 1.3 Space and time; 1.4 Mass; 1.5 Force; 1.6 Work and power; 1.7 Kinematics of a point; 1.8 Kinetics of a particle; 1.9 Impulse; 1.10 Kinetic energy; 1.11 Potential energy; 1.12 Coriolis's theorem; 1.13 Newton's laws for a group of particles; 1.14 Conservation of momentum; 1.15 Energy for a group of particles; 1.16 The principle of virtual work; 1.17 D' Alembert's principle; Chapter 2. Lagrange's Equations; 2.1 Introduction
2.2 Generalized co-ordinates2.3 Proof of Lagrange's equations; 2.4 The dissipation function; 2.5 Kinetic energy; 2.6 Conservation laws; 2.7 Hamilton's equations; 2.8 Rotating frame of reference and velocity-dependent potentials; 2.9 Moving co-ordinates; 2.10 Non-holonomic systems; 2.11 Lagrange's equations for impulsive forces; Chapter 3. Hamilton's Principle; 3.1 Introduction; 3.2 Derivation of Hamilton's principle; 3.3 Application of Hamilton's principle; 3.4 Lagrange's equations derived from Hamilton's principle; 3.5 Illustrative example; Chapter 4. Rigid Body Motion in Three Dimensions 4.1 Introduction4.2 Rotation; 4.3 Angular velocity; 4.4 Kinetics of a rigid body; 4.5 Moment of inertia; 4.6 Euler's equation for rigid body motion; 4.7 Kinetic energy of a rigid body; 4.8 Torque-free motion of a rigid body; 4.9 Stability of torque-free motion; 4.10 Euler's angles; 4.11 The symmetrical body; 4.12 Forced precession; 4.13 Epilogue; Chapter 5. Dynamics of Vehicles; 5.1 Introduction; 5.2 Gravitational potential; 5.3 The two-body problem; 5.4 The central force problem; 5.5 Satellite motion; 5.6 Effects of oblateness; 5.7 Rocket in free space; 5.8 Non-spherical satellite 5.9 Spinning satellite5.10 De-spinning of satellites; 5.11 Stability of aircraft; 5.12 Stability of a road vehicle; Chapter 6. Impact and One-Dimensional Wave Propagation; 6.1 Introduction; 6.2 The one-dimensional wave; 6.3 Longitudinal waves in an elastic prismatic bar; 6.4 Reflection and transmission at a boundary; 6.5 Momentum and energy in a pulse; 6.6 Impact of two bars; 6.7 Constant force applied to a long bar; 6.8 The effect of local deformation on pulse shape; 6.9 Prediction of pulse shape during impact of two bars; 6.10 Impact of a rigid mass on an elastic bar; 6.11 Dispersive waves 6.12 Waves in a uniform beam6.13 Waves in periodic structures; 6.14 Waves in a helical spring; Chapter 7. Waves in a Three-Dimensional Elastic Solid; 7.1 Introduction; 7.2 Strain; 7.3 Stress; 7.4 Elastic constants; 7.5 Equations of motion; 7.6 Wave equation for an elastic solid; 7.7 Plane strain; 7.8 Reflection at a plane surface; 7.9 Surface waves (Rayleigh waves); 7.10 Conclusion; Chapter 8. Robot Arm Dynamics; 8.1 Introduction; 8.2 Typical arrangements; 8.3 Kinematics of robot arms; 8.4 Kinetics of a robot arm; Chapter 9. Relativity; 9.1 Introduction 9.2 The foundations of the special theory of relativity |
| Record Nr. | UNINA-9910455949403321 |
Harrison H
|
||
| Burlington, : Elsevier Science, 1997 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced Engineering Dynamics [[electronic resource]]
| Advanced Engineering Dynamics [[electronic resource]] |
| Autore | Harrison H |
| Pubbl/distr/stampa | Burlington, : Elsevier Science, 1997 |
| Descrizione fisica | 1 online resource (315 p.) |
| Disciplina |
620.1/04 21
620.104 |
| Altri autori (Persone) | NettletonT |
| Soggetto topico |
Dynamics
Dynamics. Mechanics, Applied Mechanics, Applied Civil & Environmental Engineering Engineering & Applied Sciences Civil Engineering |
| ISBN |
1-281-04706-6
9786611047061 0-08-052335-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Advanced Engineering Dynamics; Copyright Page; Contents; Preface; Chapter 1. Newtonian Mechanics; 1.1 Introduction; 1.2 Fundamentals; 1.3 Space and time; 1.4 Mass; 1.5 Force; 1.6 Work and power; 1.7 Kinematics of a point; 1.8 Kinetics of a particle; 1.9 Impulse; 1.10 Kinetic energy; 1.11 Potential energy; 1.12 Coriolis's theorem; 1.13 Newton's laws for a group of particles; 1.14 Conservation of momentum; 1.15 Energy for a group of particles; 1.16 The principle of virtual work; 1.17 D' Alembert's principle; Chapter 2. Lagrange's Equations; 2.1 Introduction
2.2 Generalized co-ordinates2.3 Proof of Lagrange's equations; 2.4 The dissipation function; 2.5 Kinetic energy; 2.6 Conservation laws; 2.7 Hamilton's equations; 2.8 Rotating frame of reference and velocity-dependent potentials; 2.9 Moving co-ordinates; 2.10 Non-holonomic systems; 2.11 Lagrange's equations for impulsive forces; Chapter 3. Hamilton's Principle; 3.1 Introduction; 3.2 Derivation of Hamilton's principle; 3.3 Application of Hamilton's principle; 3.4 Lagrange's equations derived from Hamilton's principle; 3.5 Illustrative example; Chapter 4. Rigid Body Motion in Three Dimensions 4.1 Introduction4.2 Rotation; 4.3 Angular velocity; 4.4 Kinetics of a rigid body; 4.5 Moment of inertia; 4.6 Euler's equation for rigid body motion; 4.7 Kinetic energy of a rigid body; 4.8 Torque-free motion of a rigid body; 4.9 Stability of torque-free motion; 4.10 Euler's angles; 4.11 The symmetrical body; 4.12 Forced precession; 4.13 Epilogue; Chapter 5. Dynamics of Vehicles; 5.1 Introduction; 5.2 Gravitational potential; 5.3 The two-body problem; 5.4 The central force problem; 5.5 Satellite motion; 5.6 Effects of oblateness; 5.7 Rocket in free space; 5.8 Non-spherical satellite 5.9 Spinning satellite5.10 De-spinning of satellites; 5.11 Stability of aircraft; 5.12 Stability of a road vehicle; Chapter 6. Impact and One-Dimensional Wave Propagation; 6.1 Introduction; 6.2 The one-dimensional wave; 6.3 Longitudinal waves in an elastic prismatic bar; 6.4 Reflection and transmission at a boundary; 6.5 Momentum and energy in a pulse; 6.6 Impact of two bars; 6.7 Constant force applied to a long bar; 6.8 The effect of local deformation on pulse shape; 6.9 Prediction of pulse shape during impact of two bars; 6.10 Impact of a rigid mass on an elastic bar; 6.11 Dispersive waves 6.12 Waves in a uniform beam6.13 Waves in periodic structures; 6.14 Waves in a helical spring; Chapter 7. Waves in a Three-Dimensional Elastic Solid; 7.1 Introduction; 7.2 Strain; 7.3 Stress; 7.4 Elastic constants; 7.5 Equations of motion; 7.6 Wave equation for an elastic solid; 7.7 Plane strain; 7.8 Reflection at a plane surface; 7.9 Surface waves (Rayleigh waves); 7.10 Conclusion; Chapter 8. Robot Arm Dynamics; 8.1 Introduction; 8.2 Typical arrangements; 8.3 Kinematics of robot arms; 8.4 Kinetics of a robot arm; Chapter 9. Relativity; 9.1 Introduction 9.2 The foundations of the special theory of relativity |
| Record Nr. | UNINA-9910780017203321 |
|
Harrison H
|
||
| Burlington, : Elsevier Science, 1997 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced engineering dynamics / / H.R. Harrison, T. Nettleton
| Advanced engineering dynamics / / H.R. Harrison, T. Nettleton |
| Autore | Harrison H. R (Harry Ronald) |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | London, : Arnold |
| Descrizione fisica | 1 online resource (315 p.) |
| Disciplina | 620.1/04 |
| Altri autori (Persone) | NettletonT |
| Soggetto topico |
Dynamics
Mechanics, Applied |
| ISBN |
1-281-04706-6
9786611047061 0-08-052335-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Advanced Engineering Dynamics; Copyright Page; Contents; Preface; Chapter 1. Newtonian Mechanics; 1.1 Introduction; 1.2 Fundamentals; 1.3 Space and time; 1.4 Mass; 1.5 Force; 1.6 Work and power; 1.7 Kinematics of a point; 1.8 Kinetics of a particle; 1.9 Impulse; 1.10 Kinetic energy; 1.11 Potential energy; 1.12 Coriolis's theorem; 1.13 Newton's laws for a group of particles; 1.14 Conservation of momentum; 1.15 Energy for a group of particles; 1.16 The principle of virtual work; 1.17 D' Alembert's principle; Chapter 2. Lagrange's Equations; 2.1 Introduction
2.2 Generalized co-ordinates2.3 Proof of Lagrange's equations; 2.4 The dissipation function; 2.5 Kinetic energy; 2.6 Conservation laws; 2.7 Hamilton's equations; 2.8 Rotating frame of reference and velocity-dependent potentials; 2.9 Moving co-ordinates; 2.10 Non-holonomic systems; 2.11 Lagrange's equations for impulsive forces; Chapter 3. Hamilton's Principle; 3.1 Introduction; 3.2 Derivation of Hamilton's principle; 3.3 Application of Hamilton's principle; 3.4 Lagrange's equations derived from Hamilton's principle; 3.5 Illustrative example; Chapter 4. Rigid Body Motion in Three Dimensions 4.1 Introduction4.2 Rotation; 4.3 Angular velocity; 4.4 Kinetics of a rigid body; 4.5 Moment of inertia; 4.6 Euler's equation for rigid body motion; 4.7 Kinetic energy of a rigid body; 4.8 Torque-free motion of a rigid body; 4.9 Stability of torque-free motion; 4.10 Euler's angles; 4.11 The symmetrical body; 4.12 Forced precession; 4.13 Epilogue; Chapter 5. Dynamics of Vehicles; 5.1 Introduction; 5.2 Gravitational potential; 5.3 The two-body problem; 5.4 The central force problem; 5.5 Satellite motion; 5.6 Effects of oblateness; 5.7 Rocket in free space; 5.8 Non-spherical satellite 5.9 Spinning satellite5.10 De-spinning of satellites; 5.11 Stability of aircraft; 5.12 Stability of a road vehicle; Chapter 6. Impact and One-Dimensional Wave Propagation; 6.1 Introduction; 6.2 The one-dimensional wave; 6.3 Longitudinal waves in an elastic prismatic bar; 6.4 Reflection and transmission at a boundary; 6.5 Momentum and energy in a pulse; 6.6 Impact of two bars; 6.7 Constant force applied to a long bar; 6.8 The effect of local deformation on pulse shape; 6.9 Prediction of pulse shape during impact of two bars; 6.10 Impact of a rigid mass on an elastic bar; 6.11 Dispersive waves 6.12 Waves in a uniform beam6.13 Waves in periodic structures; 6.14 Waves in a helical spring; Chapter 7. Waves in a Three-Dimensional Elastic Solid; 7.1 Introduction; 7.2 Strain; 7.3 Stress; 7.4 Elastic constants; 7.5 Equations of motion; 7.6 Wave equation for an elastic solid; 7.7 Plane strain; 7.8 Reflection at a plane surface; 7.9 Surface waves (Rayleigh waves); 7.10 Conclusion; Chapter 8. Robot Arm Dynamics; 8.1 Introduction; 8.2 Typical arrangements; 8.3 Kinematics of robot arms; 8.4 Kinetics of a robot arm; Chapter 9. Relativity; 9.1 Introduction 9.2 The foundations of the special theory of relativity |
| Record Nr. | UNINA-9910811553403321 |
|
Harrison H. R (Harry Ronald)
|
||
| London, : Arnold | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Principles of engineering mechanics [[electronic resource] /] / H.R. Harrison, T. Nettleton
| Principles of engineering mechanics [[electronic resource] /] / H.R. Harrison, T. Nettleton |
| Autore | Harrison H. R |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Oxford, : Butterworth Heinemann, 1994 |
| Descrizione fisica | 1 online resource (281 p.) |
| Disciplina | 620.1 |
| Altri autori (Persone) | NettletonT |
| Soggetto topico | Mechanics, Applied |
| ISBN |
1-283-61934-2
9786613931795 0-08-052413-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front cover; Principles of Engineering Mechanics; Copyright Page; Table of Contents; Preface; Chapter 1. Co-ordinate systems and position vectors; 1.1 Introduction; 1.2 Co-ordinate systems; 1.3 Vector representation; Chapter 2. Kinematics of a particle in plane motion; 2.1 Displacement, velocity and acceleration of a particle; 2.2 Cartesian co-ordinates; 2.3 Path co-ordinates; 2.4 Polar co-ordinates; 2.5 Relative motion; 2.6 One-dimensional motion; 2.7 Graphical methods; Chapter 3. Kinetics of a particle in plane motion; 3.1 Introduction; 3.2 Newton's laws of motion; 3.3 Units
3.4 Types of force3.5 Gravitation; 3.6 Frames of reference; 3.7 Systems of particles; 3.8 Centre of mass; 3.9 Free-body diagrams; 3.10 Simple harmonic motion; 3.11 Impulseand momentum; 3.12 Work and kinetic energy; 3.13 Power; Chapter 4. Force systems and equilibrium; 4.1 Addition of forces; 4.2 Moment of force; 4.3 Vector product of two vectors; 4.4 Moments of components of a force; 4.5 Couple; 4.6 Distributed forces; 4.7 Equivalentforce system in three dimensions; 4.8 Equilibrium; 4.9 Co-planar force system; 4.10 Equilibrium in three dimensions; 4.11 Triple scalar product 4.12 Internal forces4.13 Fluid statics; 4.14 Buoyancy; 4.15 Stability of floating bodies; Chapter 5. Kinematics of a rigid body in plane motion; 5.1 Introduction; 5.2 Types of motion; 5.3 Relative motion between two points on a rigid body; 5.4 Velocity diagrams; 5.5 Instantaneous centre of rotation; 5.6 Velocity image; 5.7 Acceleration diagrams; 5.8 Acceleration image; 5.9 Simple spur gears; 5.10 Epicyclic motion; 5.11 Compound epicyclic gears; Chapter 6. Kinetics of a rigid body in plane motion; 6.1 General plane motion; 6.2 Rotation about a fixed axis 6.3 Moment of inertia of a body about an axis6.4 Application; Chapter 7. Energy; 7.1 Introduction; 7.2 Work and energy for a system of particles; 7.3 Kinetic energy of a rigid body; 7.4 Potential energy; 7.5 Non-conservative systems; 7.6 The general energy principle; 7.7 Summary of the energy method; 7.8 The power equation; 7.9 Virtual work; 7.10 D'Alembert's principle; Chapter 8. Momentum and impulse; 8.1 Linear momentum; 8.2 Moment of momentum; 8.3 Conservation of momentum; 8.4 Impact of rigid bodies; 8.5 Deflection of fluid streams; 8.6 The rocket in free space; 8.7 Illustrative example 8.8 Equations of motion for a fixed region of spaceChapter 9. Vibration; SECTION A: One-degree-of-freedom systems; 9.1 Introduction; 9.2 Free vibration of undamped systems; 9.3 Vibration energy; 9.4 Pendulums; 9.5 Levels of vibration; 9.6 Damping; 9.7 Free vibration of a damped system; 9.8 Phase-plane method; 9.9 Response to simple input forces; 9.10 Periodic excitation; 9.11 Work done by a sinusoidal force; 9.12 Response to a sinusoidal force; 9.13 Moving foundation; 9.14 Rotating out-of-balance masses; 9.15 Transmissibility; 9.16 Resonance 9.17 Estimation of damping from the width of the peak |
| Record Nr. | UNINA-9910780014503321 |
|
Harrison H. R
|
||
| Oxford, : Butterworth Heinemann, 1994 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Principles of engineering mechanics / / H.R. Harrison, T. Nettleton
| Principles of engineering mechanics / / H.R. Harrison, T. Nettleton |
| Autore | Harrison H. R |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Oxford, : Butterworth Heinemann, 1994 |
| Descrizione fisica | 1 online resource (281 p.) |
| Disciplina | 620.1 |
| Altri autori (Persone) | NettletonT |
| Soggetto topico | Mechanics, Applied |
| ISBN |
1-283-61934-2
9786613931795 0-08-052413-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front cover; Principles of Engineering Mechanics; Copyright Page; Table of Contents; Preface; Chapter 1. Co-ordinate systems and position vectors; 1.1 Introduction; 1.2 Co-ordinate systems; 1.3 Vector representation; Chapter 2. Kinematics of a particle in plane motion; 2.1 Displacement, velocity and acceleration of a particle; 2.2 Cartesian co-ordinates; 2.3 Path co-ordinates; 2.4 Polar co-ordinates; 2.5 Relative motion; 2.6 One-dimensional motion; 2.7 Graphical methods; Chapter 3. Kinetics of a particle in plane motion; 3.1 Introduction; 3.2 Newton's laws of motion; 3.3 Units
3.4 Types of force3.5 Gravitation; 3.6 Frames of reference; 3.7 Systems of particles; 3.8 Centre of mass; 3.9 Free-body diagrams; 3.10 Simple harmonic motion; 3.11 Impulseand momentum; 3.12 Work and kinetic energy; 3.13 Power; Chapter 4. Force systems and equilibrium; 4.1 Addition of forces; 4.2 Moment of force; 4.3 Vector product of two vectors; 4.4 Moments of components of a force; 4.5 Couple; 4.6 Distributed forces; 4.7 Equivalentforce system in three dimensions; 4.8 Equilibrium; 4.9 Co-planar force system; 4.10 Equilibrium in three dimensions; 4.11 Triple scalar product 4.12 Internal forces4.13 Fluid statics; 4.14 Buoyancy; 4.15 Stability of floating bodies; Chapter 5. Kinematics of a rigid body in plane motion; 5.1 Introduction; 5.2 Types of motion; 5.3 Relative motion between two points on a rigid body; 5.4 Velocity diagrams; 5.5 Instantaneous centre of rotation; 5.6 Velocity image; 5.7 Acceleration diagrams; 5.8 Acceleration image; 5.9 Simple spur gears; 5.10 Epicyclic motion; 5.11 Compound epicyclic gears; Chapter 6. Kinetics of a rigid body in plane motion; 6.1 General plane motion; 6.2 Rotation about a fixed axis 6.3 Moment of inertia of a body about an axis6.4 Application; Chapter 7. Energy; 7.1 Introduction; 7.2 Work and energy for a system of particles; 7.3 Kinetic energy of a rigid body; 7.4 Potential energy; 7.5 Non-conservative systems; 7.6 The general energy principle; 7.7 Summary of the energy method; 7.8 The power equation; 7.9 Virtual work; 7.10 D'Alembert's principle; Chapter 8. Momentum and impulse; 8.1 Linear momentum; 8.2 Moment of momentum; 8.3 Conservation of momentum; 8.4 Impact of rigid bodies; 8.5 Deflection of fluid streams; 8.6 The rocket in free space; 8.7 Illustrative example 8.8 Equations of motion for a fixed region of spaceChapter 9. Vibration; SECTION A: One-degree-of-freedom systems; 9.1 Introduction; 9.2 Free vibration of undamped systems; 9.3 Vibration energy; 9.4 Pendulums; 9.5 Levels of vibration; 9.6 Damping; 9.7 Free vibration of a damped system; 9.8 Phase-plane method; 9.9 Response to simple input forces; 9.10 Periodic excitation; 9.11 Work done by a sinusoidal force; 9.12 Response to a sinusoidal force; 9.13 Moving foundation; 9.14 Rotating out-of-balance masses; 9.15 Transmissibility; 9.16 Resonance 9.17 Estimation of damping from the width of the peak |
| Record Nr. | UNINA-9910810805803321 |
|
Harrison H. R
|
||
| Oxford, : Butterworth Heinemann, 1994 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||