[RS/yim011] Schaum's Outline of Engineering Mechanics
Students and professionals bought more than 300,000 copies of previous editions! This new edition draws on the best mathematical tool now available to solve problems. It applies the vector approach for elegance and simplicity in theory and problems whenever appropriate. Other times, for similarly adequate solutions, scalar methods are preferred. This study guide complements class texts and proves excellent for solo study and brushing up.
* Title Name : Schaum's Outline of Engineering Mechanics
* Author : E. W. Nelson, Charles L. Best, William G. McLean
* Publisher: McGraw-Hill
* Number Of Pages: 480
* Publication Date: 1997-05-01
* ISBN-10 / ASIN: 007046193
CONTENT
Chapter I 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
Chapter 2 OPERATIONS WITH FORCES
2.1 The Moment of a Force 2.2 A Couple 2.3 The Moment of a Couple 2.4 Replacing a Single Force 2.5 Coplanar Force Systems 2.6 Notes
Chapter 3 RESULTANTS OR COPLANAR FORCE SYSTEMS
3.1 Coplanar Forces 3.2 Concurrent System 3.3 Parallel System 3.4 Nonconcurrent, Nonparallel System 3.5 Resultant of Distributed Force Systems
Chapter 4 RESULTANTS OF NONCOPLANAR FORCE SYSTEMS
4.1 Noncoplanar Force Systems 4.2 Resultants of a Noncopkmar Force System 4.3 Concurrent System 4.4 Parallel System 4.5 Nonconcurrent. Nonparallel System
Chapter 5 EQUILIBRIUM OF COPLANAR FORCE SYSTEMS
5.1 Equilibrium of a Coplanar Force System 5.2 Two-Force Members 5.3 Concurrent System 5.4 Parallel System 5.5 Nonconcurrent. Nonparallel System 5.6 Remarks—Free Body Diagrams
Chapter 6 EQUILIBRIUM OF NONCOPLANAR FORCE SYSTEMS
6.1 Equilibrium of a Noncoplanar Force System 6.3 Concurrent System 6.2 Parallel System 6.4 Nonconcurrent. Nonparallel System
Chapter 7 TRUSSES AND CABLES
7.1 Trusses and Cables 7.2 Trusses 7.3 Cables
Chapter 8 FORCES IN BEAMS
8.1 Beams 8.2 Types of Beams 8.3 Shear and Moment 8.4 Shear and Moment Diagrams 8.5 Slope of the Shear Diagram 8.6 Change in Shear 8.7 Slope of the Moment Diagram 8.8 Change in Moment
Chapter 9 FRICTION
9.1 General Concepts 9.2 Laws of Friction 9.3 Jackscrew 9.4 Belt Friction and Brake Bands 9.5 Rolling Resistance
Chapter 10 FIRST MOMENTS AND CENTROIDS
10.1 Centroid of an Assemblage 10.2 Centroid of a Continuous Quantity 10.3 Theorems of Pappus and Guldinus 10.4 Center of Pressure
Chapter 11 VIRTUAL WORK
11.1 Virtual Displacement and Virtual Work 11.2 Equilibrium 11.3 Stable Equilibrium 11.4 Unstable Equilibrium 11.5 Neutral Equilibrium 11.6 Summary of Equilibrium
Chapter 12 KINEMATICS OF A PARTICLE
12.1 Kinematics 12.2 Rectilinear Motion 12.3 Curvilinear Motion 12.4 Rectangular Components 12.5 Tangential and Normal Components 12.6 Radial and Transverse Components 12.7 Units
Chapter 13 DYNAMICS OF A PARTICLE
13.1 Newton's Laws of Motion 13.2 Units 13.3 Acceleration 13.4 D'Alembert's Principle 13.5 Problems in Dynamics
Chapter 14 KINEMATICS OF A RIGID BODY IN PLANE MOTION
14.1 Plane Motion of a Rigid Body 14.2 Translation 14.3 Rotation 14.4 Instantaneous Axis of Rotation 14.5 Coriolis' Acceleration
Chapter 15 MOMENTS OF INERTIA
15.1 Axial Moment of Inertia of an Element of Area 15.2 Polar Moment of Inertia of an Element of Area 15.3 Product of Inertia of an Element of Area 15.4 Axial Moment of Inertia of an Area 15.5 Radius of Gyration of an Area 15.6 Polar Moment of Inertia of an Area 15.7 Product of Inertia of an Area 15.8 Parallel Axis Theorem 15.9 Composite Area 15.10 Rotated Set of Axes 15.11 Mohr's Circle 15.12 Axial Moment of Inertia of an Element of Mass 15.13 Axial Moment of Inertia of a Mass 15.14 Radius of Gryation of a Mass 15.15 Product of Inertia of a Mass 15.16 Parallel Axis Theorem for
a Mass 15.17 Composite Mass
Chapter 16 DYNAMICS OF A RIGID BODY IN PLANE MOTION
16.1 Vector Equations of Plane Motion 16.2 Scalar Equations of Plane Motion 16.3 Pictorial Representation of the Equations 16.4 Translation of a Rigid Body 16.5 Rotation of a Rigid Body 16.6 Center of Percussion 16.7 The Inertia-Force Method for Rigid Bodies
Chapter 17 WORK AND ENERGY
17.1 Work 17.2 Special Cases 17.3 Power 17.4 Efficiency 17.5 Kinetic Energy of a Particle 17.6 Work-Energy Relations for a Particle 17.7 Kinetic Energy Г of a Rigid Body in Translation 17.8 Kinetic Energy T of a Rigid Body in Rotation 17.9 Kinetic Energy T of a Body in Plane Motion 17.10 Potential Energy 17.11 Work-Energy Relations for a Rigid Body 17.12 Law of Conservation of Energy
Chapter 18 IMPULSE AND MOMENTUM
18.1 Linear Impulse-Momentum Relation for a Particle 18.2 Linear Impulse-Momentum Relation for an Assemblage of Particles 18.3 Moment of Momentum Ho 18.4 Moment of Relative Momentum H'a 18.5 Corresponding Scalar Equations 18.6 Units 18.7 Conservation of Linear Momentum 18.8 Conservation of Angular Momentum 18.9 Impact 18.10 Variable Mass
Chapter 19 MECHANICAL VIBRATIONS
19.1 Definitions 19.2 Degrees of Freedom 19.3 Simple Harmonic Motion 19.4 Multicomponent Systems 19.5 Units
Appendix A SI UNITS
Appendix В FIRST MOMENTS AND CENTROIDS
Appendix С COMPUTER SOLUTIONS TO SELECTED PROBLEMS
Appendix D SAMPLE SCREENS FROM THE COMPANION SCHAUM'S ELECTRONIC TUTOR
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