Verfügbarkeit: Engineering mechanics: dynamics

Engineering mechanics: dynamics:

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Bibliographische Detailangaben
Hauptverfasser:	Potter, Merle C. 1936- (VerfasserIn), Nelson, E. W. (VerfasserIn), Best, Charles L. (VerfasserIn), McLean, W. G. (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York McGraw-Hill [2021]
Ausgabe:	Seventh edition
Schriftenreihe:	Schaum's outline series
Schlagworte:	Technische Mechanik Dynamik
Online-Zugang:	FHD01
Beschreibung:	1 Online-Ressource
ISBN:	9781260462876

Internformat

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505	8		\|a Cover -- Title Page -- Copyright Page -- Contents -- About the Authors -- Preface -- Chapter 1. Vectors -- 1.1 Definitions -- 1.2 Addition of Two Vectors -- 1.3 Subtraction of a Vector -- 1.4 Zero Vector -- 1.5 Composition of Vectors -- 1.6 Multiplication of Vectors by Scalars -- 1.7 Orthogonal Triad of Unit Vectors -- 1.8 Position Vector -- 1.9 Dot or Scalar Product -- 1.10 The Cross or Vector Product -- 1.11 Vector Calculus -- 1.12 Dimensions and Units -- The International System (SI) -- Solved Problems -- Supplementary Problems -- Chapter 2. Kinematics of a Particle -- 2.1 Kinematics
505	8		\|a 2.2 Rectilinear Motion -- 2.2.1 Projectile Motion -- 2.2.2 Harmonic Motion -- 2.3 Curvilinear Motion -- 2.3.1 Rectangular Components -- 2.3.2 Tangential and Normal Components -- 2.3.3 Radial and Transverse Components -- Solved Problems -- Supplementary Problems -- Chapter 3. Dynamics of a Particle -- 3.1 Newton's Laws of Motion -- 3.2 Acceleration -- 3.3 D'Alembert's Principle -- 3.4 Problems in Dynamics -- Solved Problems -- Supplementary Problems -- Chapter 4. Kinematics of a Rigid Body in Plane Motion -- 4.1 Plane Motion of a Rigid Body -- 4.2 Translation -- 4.3 Rotation
505	8		\|a 4.4 Instantaneous Axis of Rotation -- 4.5 The Coriolis Acceleration -- Solved Problems -- Supplementary Problems -- Chapter 5. Dynamics of a Rigid Body in Plane Motion -- 5.1 Vector Equations of Plane Motion -- 5.2 Scalar Equations of Plane Motion -- 5.3 Summary of the Equations -- 5.4 Translation of a Rigid Body -- 5.5 Rotation of a Rigid Body -- 5.6 Center of Percussion -- 5.7 Inertia Force Method for Rigid Bodies -- Solved Problems -- Supplementary Problems -- Chapter 6. Work and Energy -- 6.1 Work and Potential Energy -- 6.2 Power -- 6.3 Efficiency and Kinetic Energy
505	8		\|a 6.4 Work-Energy Relations for a Particle -- 6.5 Kinetic Energy of a Rigid Body -- 6.6 Work-Energy Relations for a Rigid Body -- Solved Problems -- Supplementary Problems -- Chapter 7. Impulse and Momentum -- 7.1 Impulse-Momentum Relation for a Particle -- 7.2 Impulse-Momentum Relation for an Assemblage of Particles -- 7.3 Angular Momentum -- 7.4 Relative Angular Momentum -- 7.5 Impact -- 7.6 Variable Mass -- Solved Problems -- Supplementary Problems -- Chapter 8. Mechanical Vibrations -- 8.1 Definitions -- 8.2 Simple Harmonic Motion -- 8.2.1 Free Vibrations-Linear -- 8.2.2 Free Vibrations-Angular
505	8		\|a 8.3 Free Vibrations with Viscous Damping -- 8.4 Forced Vibrations without Damping -- 8.5 Forced Vibrations with Viscous Damping -- 8.6 Multicomponent Systems -- Solved Problems -- Supplementary Problems -- Practice Final Exam -- Appendix A. SI Units -- Appendix B. Second Moments of Areas and Mass Moments of Inertia -- Index
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Datensatz im Suchindex

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author	Potter, Merle C. 1936- Nelson, E. W. Best, Charles L. McLean, W. G.
author_GND	(DE-588)138923493
author_facet	Potter, Merle C. 1936- Nelson, E. W. Best, Charles L. McLean, W. G.
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author_sort	Potter, Merle C. 1936-
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contents	Cover -- Title Page -- Copyright Page -- Contents -- About the Authors -- Preface -- Chapter 1. Vectors -- 1.1 Definitions -- 1.2 Addition of Two Vectors -- 1.3 Subtraction of a Vector -- 1.4 Zero Vector -- 1.5 Composition of Vectors -- 1.6 Multiplication of Vectors by Scalars -- 1.7 Orthogonal Triad of Unit Vectors -- 1.8 Position Vector -- 1.9 Dot or Scalar Product -- 1.10 The Cross or Vector Product -- 1.11 Vector Calculus -- 1.12 Dimensions and Units -- The International System (SI) -- Solved Problems -- Supplementary Problems -- Chapter 2. Kinematics of a Particle -- 2.1 Kinematics 2.2 Rectilinear Motion -- 2.2.1 Projectile Motion -- 2.2.2 Harmonic Motion -- 2.3 Curvilinear Motion -- 2.3.1 Rectangular Components -- 2.3.2 Tangential and Normal Components -- 2.3.3 Radial and Transverse Components -- Solved Problems -- Supplementary Problems -- Chapter 3. Dynamics of a Particle -- 3.1 Newton's Laws of Motion -- 3.2 Acceleration -- 3.3 D'Alembert's Principle -- 3.4 Problems in Dynamics -- Solved Problems -- Supplementary Problems -- Chapter 4. Kinematics of a Rigid Body in Plane Motion -- 4.1 Plane Motion of a Rigid Body -- 4.2 Translation -- 4.3 Rotation 4.4 Instantaneous Axis of Rotation -- 4.5 The Coriolis Acceleration -- Solved Problems -- Supplementary Problems -- Chapter 5. Dynamics of a Rigid Body in Plane Motion -- 5.1 Vector Equations of Plane Motion -- 5.2 Scalar Equations of Plane Motion -- 5.3 Summary of the Equations -- 5.4 Translation of a Rigid Body -- 5.5 Rotation of a Rigid Body -- 5.6 Center of Percussion -- 5.7 Inertia Force Method for Rigid Bodies -- Solved Problems -- Supplementary Problems -- Chapter 6. Work and Energy -- 6.1 Work and Potential Energy -- 6.2 Power -- 6.3 Efficiency and Kinetic Energy 6.4 Work-Energy Relations for a Particle -- 6.5 Kinetic Energy of a Rigid Body -- 6.6 Work-Energy Relations for a Rigid Body -- Solved Problems -- Supplementary Problems -- Chapter 7. Impulse and Momentum -- 7.1 Impulse-Momentum Relation for a Particle -- 7.2 Impulse-Momentum Relation for an Assemblage of Particles -- 7.3 Angular Momentum -- 7.4 Relative Angular Momentum -- 7.5 Impact -- 7.6 Variable Mass -- Solved Problems -- Supplementary Problems -- Chapter 8. Mechanical Vibrations -- 8.1 Definitions -- 8.2 Simple Harmonic Motion -- 8.2.1 Free Vibrations-Linear -- 8.2.2 Free Vibrations-Angular 8.3 Free Vibrations with Viscous Damping -- 8.4 Forced Vibrations without Damping -- 8.5 Forced Vibrations with Viscous Damping -- 8.6 Multicomponent Systems -- Solved Problems -- Supplementary Problems -- Practice Final Exam -- Appendix A. SI Units -- Appendix B. Second Moments of Areas and Mass Moments of Inertia -- Index
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spelling	Potter, Merle C. 1936- Verfasser (DE-588)138923493 aut Engineering mechanics: dynamics Merle C. Potter, E.W. Nelson, Charles L. Best, W.G. McLean Schaum's outline of Engineering mechanics dynamics Seventh edition New York McGraw-Hill [2021] 1 Online-Ressource txt rdacontent c rdamedia cr rdacarrier Schaum's outline series Cover -- Title Page -- Copyright Page -- Contents -- About the Authors -- Preface -- Chapter 1. Vectors -- 1.1 Definitions -- 1.2 Addition of Two Vectors -- 1.3 Subtraction of a Vector -- 1.4 Zero Vector -- 1.5 Composition of Vectors -- 1.6 Multiplication of Vectors by Scalars -- 1.7 Orthogonal Triad of Unit Vectors -- 1.8 Position Vector -- 1.9 Dot or Scalar Product -- 1.10 The Cross or Vector Product -- 1.11 Vector Calculus -- 1.12 Dimensions and Units -- The International System (SI) -- Solved Problems -- Supplementary Problems -- Chapter 2. Kinematics of a Particle -- 2.1 Kinematics 2.2 Rectilinear Motion -- 2.2.1 Projectile Motion -- 2.2.2 Harmonic Motion -- 2.3 Curvilinear Motion -- 2.3.1 Rectangular Components -- 2.3.2 Tangential and Normal Components -- 2.3.3 Radial and Transverse Components -- Solved Problems -- Supplementary Problems -- Chapter 3. Dynamics of a Particle -- 3.1 Newton's Laws of Motion -- 3.2 Acceleration -- 3.3 D'Alembert's Principle -- 3.4 Problems in Dynamics -- Solved Problems -- Supplementary Problems -- Chapter 4. Kinematics of a Rigid Body in Plane Motion -- 4.1 Plane Motion of a Rigid Body -- 4.2 Translation -- 4.3 Rotation 4.4 Instantaneous Axis of Rotation -- 4.5 The Coriolis Acceleration -- Solved Problems -- Supplementary Problems -- Chapter 5. Dynamics of a Rigid Body in Plane Motion -- 5.1 Vector Equations of Plane Motion -- 5.2 Scalar Equations of Plane Motion -- 5.3 Summary of the Equations -- 5.4 Translation of a Rigid Body -- 5.5 Rotation of a Rigid Body -- 5.6 Center of Percussion -- 5.7 Inertia Force Method for Rigid Bodies -- Solved Problems -- Supplementary Problems -- Chapter 6. Work and Energy -- 6.1 Work and Potential Energy -- 6.2 Power -- 6.3 Efficiency and Kinetic Energy 6.4 Work-Energy Relations for a Particle -- 6.5 Kinetic Energy of a Rigid Body -- 6.6 Work-Energy Relations for a Rigid Body -- Solved Problems -- Supplementary Problems -- Chapter 7. Impulse and Momentum -- 7.1 Impulse-Momentum Relation for a Particle -- 7.2 Impulse-Momentum Relation for an Assemblage of Particles -- 7.3 Angular Momentum -- 7.4 Relative Angular Momentum -- 7.5 Impact -- 7.6 Variable Mass -- Solved Problems -- Supplementary Problems -- Chapter 8. Mechanical Vibrations -- 8.1 Definitions -- 8.2 Simple Harmonic Motion -- 8.2.1 Free Vibrations-Linear -- 8.2.2 Free Vibrations-Angular 8.3 Free Vibrations with Viscous Damping -- 8.4 Forced Vibrations without Damping -- 8.5 Forced Vibrations with Viscous Damping -- 8.6 Multicomponent Systems -- Solved Problems -- Supplementary Problems -- Practice Final Exam -- Appendix A. SI Units -- Appendix B. Second Moments of Areas and Mass Moments of Inertia -- Index Technische Mechanik (DE-588)4059231-5 gnd rswk-swf Dynamik (DE-588)4013384-9 gnd rswk-swf Dynamik (DE-588)4013384-9 s Technische Mechanik (DE-588)4059231-5 s DE-604 Nelson, E. W. Verfasser aut Best, Charles L. Verfasser aut McLean, W. G. Verfasser aut Erscheint auch als Druck-Ausgabe 978-1-26-046286-9
spellingShingle	Potter, Merle C. 1936- Nelson, E. W. Best, Charles L. McLean, W. G. Engineering mechanics: dynamics Cover -- Title Page -- Copyright Page -- Contents -- About the Authors -- Preface -- Chapter 1. Vectors -- 1.1 Definitions -- 1.2 Addition of Two Vectors -- 1.3 Subtraction of a Vector -- 1.4 Zero Vector -- 1.5 Composition of Vectors -- 1.6 Multiplication of Vectors by Scalars -- 1.7 Orthogonal Triad of Unit Vectors -- 1.8 Position Vector -- 1.9 Dot or Scalar Product -- 1.10 The Cross or Vector Product -- 1.11 Vector Calculus -- 1.12 Dimensions and Units -- The International System (SI) -- Solved Problems -- Supplementary Problems -- Chapter 2. Kinematics of a Particle -- 2.1 Kinematics 2.2 Rectilinear Motion -- 2.2.1 Projectile Motion -- 2.2.2 Harmonic Motion -- 2.3 Curvilinear Motion -- 2.3.1 Rectangular Components -- 2.3.2 Tangential and Normal Components -- 2.3.3 Radial and Transverse Components -- Solved Problems -- Supplementary Problems -- Chapter 3. Dynamics of a Particle -- 3.1 Newton's Laws of Motion -- 3.2 Acceleration -- 3.3 D'Alembert's Principle -- 3.4 Problems in Dynamics -- Solved Problems -- Supplementary Problems -- Chapter 4. Kinematics of a Rigid Body in Plane Motion -- 4.1 Plane Motion of a Rigid Body -- 4.2 Translation -- 4.3 Rotation 4.4 Instantaneous Axis of Rotation -- 4.5 The Coriolis Acceleration -- Solved Problems -- Supplementary Problems -- Chapter 5. Dynamics of a Rigid Body in Plane Motion -- 5.1 Vector Equations of Plane Motion -- 5.2 Scalar Equations of Plane Motion -- 5.3 Summary of the Equations -- 5.4 Translation of a Rigid Body -- 5.5 Rotation of a Rigid Body -- 5.6 Center of Percussion -- 5.7 Inertia Force Method for Rigid Bodies -- Solved Problems -- Supplementary Problems -- Chapter 6. Work and Energy -- 6.1 Work and Potential Energy -- 6.2 Power -- 6.3 Efficiency and Kinetic Energy 6.4 Work-Energy Relations for a Particle -- 6.5 Kinetic Energy of a Rigid Body -- 6.6 Work-Energy Relations for a Rigid Body -- Solved Problems -- Supplementary Problems -- Chapter 7. Impulse and Momentum -- 7.1 Impulse-Momentum Relation for a Particle -- 7.2 Impulse-Momentum Relation for an Assemblage of Particles -- 7.3 Angular Momentum -- 7.4 Relative Angular Momentum -- 7.5 Impact -- 7.6 Variable Mass -- Solved Problems -- Supplementary Problems -- Chapter 8. Mechanical Vibrations -- 8.1 Definitions -- 8.2 Simple Harmonic Motion -- 8.2.1 Free Vibrations-Linear -- 8.2.2 Free Vibrations-Angular 8.3 Free Vibrations with Viscous Damping -- 8.4 Forced Vibrations without Damping -- 8.5 Forced Vibrations with Viscous Damping -- 8.6 Multicomponent Systems -- Solved Problems -- Supplementary Problems -- Practice Final Exam -- Appendix A. SI Units -- Appendix B. Second Moments of Areas and Mass Moments of Inertia -- Index Technische Mechanik (DE-588)4059231-5 gnd Dynamik (DE-588)4013384-9 gnd
subject_GND	(DE-588)4059231-5 (DE-588)4013384-9
title	Engineering mechanics: dynamics
title_alt	Schaum's outline of Engineering mechanics dynamics
title_auth	Engineering mechanics: dynamics
title_exact_search	Engineering mechanics: dynamics
title_exact_search_txtP	Engineering mechanics: dynamics
title_full	Engineering mechanics: dynamics Merle C. Potter, E.W. Nelson, Charles L. Best, W.G. McLean
title_fullStr	Engineering mechanics: dynamics Merle C. Potter, E.W. Nelson, Charles L. Best, W.G. McLean
title_full_unstemmed	Engineering mechanics: dynamics Merle C. Potter, E.W. Nelson, Charles L. Best, W.G. McLean
title_short	Engineering mechanics: dynamics
title_sort	engineering mechanics dynamics
topic	Technische Mechanik (DE-588)4059231-5 gnd Dynamik (DE-588)4013384-9 gnd
topic_facet	Technische Mechanik Dynamik
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