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Engineering Mechanics : Combined Statics and Dynamics,9780135770405
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Engineering Mechanics : Combined Statics and Dynamics

by
Edition:
8th
ISBN13:

9780135770405

ISBN10:
0135770408
Format:
Hardcover
Pub. Date:
12/1/1997
Publisher(s):
Prentice Hall
List Price: $134.00
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Summary

For introductory statics and dynamics courses found in mechanical engineering, civil engineering, aeronautical engineering, and engineering mechanics departments. Vividly illustrated throughout, this best-selling text offers a concise and thorough presentation of engineering mechanics theory and application. The material is reinforced with numerous examples to illustrate principles and imaginative, well-illustrated problems of varying degrees of difficulty. The text presents an unrivaled commitment to the development of students' problem-solving skills and features the many trademark pedagogical features that have made Hibbeler synonymous with excellence in the field. The Eighth Edition has been thoroughly revised and updated to offer insightful new problems, improved examples, and a stronger design emphasis.

Table of Contents

Statics 3
1 General Principles
3(14)
Chapter Objectives 3(1)
1.1 Mechanics
3(1)
1.2 Fundamental Concepts
4(2)
1.3 Units of Measurement
6(2)
1.4 The International System of Units
8(2)
1.5 Numerical Calculations
10(7)
Force Vectors
17(64)
Chapter Objectives 17(1)
2.1 Scalars and Vectors
17(1)
2.2 Vector Operations
18(2)
2.3 Vector Addition of Forces
20(11)
2.4 Addition of a System of Coplanar Forces
31(11)
2.5 Cartesian Vectors
42(4)
2.6 Addition and Subtraction of Cartesian Vectors
46(9)
2.7 Position Vectors
55(3)
2.8 Force Vector Directed Along a Line
58(10)
2.9 Dot Product
68(13)
3 Equilibrium of a Particle
81(32)
Chapter Objectives 81(1)
3.1 Condition for the Equilibrium of a Particle
81(1)
3.2 The Free-Body Diagram
82(3)
3.3 Coplanar Force Systems
85(13)
3.4 Three-Dimensional Force Systems
98(15)
4 Force System Resultants
113(80)
Chapter Objectives 113(1)
4.1 Moment of a Force-Scalar Formulation
113(5)
4.2 Cross Product
118(3)
4.3 Moment of a Force-Vector Formulation
121(5)
4.4 Principle of Moments
126(12)
4.5 Moment of a Force About a Specified Axis
138(10)
4.6 Moment of a Couple
148(12)
4.7 Equivalent System
160(2)
4.8 Resultants of a Force and Couple System
162(4)
4.9 Further Reduction of a Force and Couple System
166(14)
4.10 Reduction of a Simple Distributed Loading
180(13)
5 Equilibrium of a Rigid Body
193(64)
Chapter Objectives 193(1)
5.1 Conditions for Rigid-Body Equilibrium
193(2)
Equilibrium in Two Dimensions
195(1)
5.2 Free-Body Diagrams
195(14)
5.3 Equations of Equilibrium
209(9)
5.4 Two-and Three-Force Members
218(13)
Equilibrium in Three Dimensions
231(1)
5.5 Free-Body Diagrams
231(6)
5.6 Equations of Equilibrium
237(1)
5.7 Constraints for a Rigid Body
238(19)
6 Structural Analysis
257(66)
Chapter Objectives 257(1)
6.1 Simple Trusses
257(3)
6.2 The Method of Joints
260(6)
6.3 Zero-Force Members
266(7)
6.4 The Method of Sections
273(10)
6.5 Space Trusses
283(4)
6.6 Frames and Machines
287(36)
7 Internal Forces
323(54)
Chapter Objectives 323(1)
7.1 Internal Forces Developed in Structural Members
323(17)
7.2 Shear and Moment Equations and Diagrams
340(8)
7.3 Relations Between Distributed Load, Shear, and Moment
348(10)
7.4 Cables
358(19)
8 Friction
377(58)
Chapter Objectives 377(1)
8.1 Characteristics of Dry Friction
377(4)
8.2 Problems Involving Dry Friction
381(21)
8.3 Wedges
402(2)
8.4 Frictional Forces on Screws
404(8)
8.5 Frictional Forces on Flat Belts
412(7)
8.6 Frictional Forces on Collar Bearings, Pivot Bearings, and Disks
419(3)
8.7 Frictional Forces on Journal Bearings
422(2)
8.8 Rolling Resistance
424(11)
9 Center of Gravity and Centroid
435(62)
Chapter Objectives 435(1)
9.1 Center of Gravity and Center of Mass for a System of Particles
435(2)
9.2 Center of Gravity, Center of Mass, and Centroid for a Body
437(22)
9.3 Composite Bodies
459(14)
9.4 Theorems of Pappus and Guldinus
473(8)
9.5 Resultant of a General Distributed Loading
481(1)
9.6 Fluid Pressure
482(15)
10 Moments of Inertia
497(52)
Chapter Objectives 497(1)
10.1 Definition of Moments of Inertia for Areas
497(2)
10.2 Parallel-Axis Theorem for an Area
499(1)
10.3 Radius of Gyration of an Area
499(1)
10.4 Moments of Inertia for an Area by Integration
500(8)
10.5 Moments of Inertia for Composite Areas
508(8)
10.6 Product of Inertia for an Area
516(4)
10.7 Moments of Inertia for an Area About Inclined Axes
520(3)
10.8 Mohr's Circle for Moments of Inertia
523(10)
10.9 Mass Moment of Inertia
533(16)
11 Virtual Work
549(33)
Chapter Objectives 549(1)
11.1 Definition of Work and Virtual Work
549(3)
11.2 Principle of Virtual Work for a Particle and a Rigid Body
552(1)
11.3 Principle of Virtual Work for a System of Connected Rigid Bodies
553(13)
11.4 Conservative Forces
566(1)
11.5 Potential Energy
567(1)
11.6 Potential-Energy Criterion for Equilibrium
568(2)
11.7 Stability of Equilibrium
570(12)
Appendixes 582(27)
A. Mathematical Expressions 582(2)
B. Numerical and Computer Analysis 584(6)
C. Review for the Fundamentals of Engineering Examination 590(19)
Answers 609(13)
Index 622
Dynamics
12 Kinematics of a Particle
3(94)
Chapter Objectives 3(1)
12.1 Introduction
3(2)
12.2 Rectilinear Kinematics: Continuous Motion
5(12)
12.3 Rectilinear Kinematics: Erratic Motion
17(13)
12.4 General Curvilinear Motion
30(2)
12.5 Curvilinear Motion: Rectangular Components
32(5)
12.6 Motion of a Projectile
37(11)
12.7 Curvilinear Motion: Normal and Tangential Components
48(13)
12.8 Curvilinear Motion: Cylindrical Components
61(15)
12.9 Absolute Dependent Motion Analysis of Two Particles
76(6)
12.10 Relative-Motion Analysis of Two Particles Using Translating Axes
82(15)
13 Kinetics of a Particle: Force and Acceleration
97(62)
Chapter Objectives 97(1)
13.1 Newton's Laws of Motion
97(4)
13.2 The Equation of Motion
101(3)
13.3 Equation of Motion for a System of Particles
104(2)
13.4 Equations of Motion: Rectangular Coordinates
106(17)
13.5 Equations of Motion: Normal and Tangential Coordinates
123(12)
13.6 Equations of Motion: Cylindrical Coordinates
135(11)
13.7 Central-Force Motion and Space Mechanics
146(13)
14 Kinetics of a Particle: Work and Energy
159(48)
Chapter Objectives 159(1)
14.1 The Work of a Force
159(5)
14.2 Principle of Work and Energy
164(2)
14.3 Principle of Work and Energy for a System of Particles
166(16)
14.4 Power and Efficiency
182(8)
14.5 Conservative Forces and Potential Energy
190(4)
14.6 Conservation of Energy
194(13)
15 Kinetics of a Particle: Impulse and Momentum
207(70)
Chapter Objectives 207(1)
15.1 Principle of Linear Impulse and Momentum
207(7)
15.2 Principle of Linear Impulse and Momentum for a System of Particles
214(8)
15.3 Conservation of Linear Momentum for a System of Particles
222(11)
15.4 Impact
233(13)
15.5 Angular Momentum
246(1)
15.6 Relation Between Moment of a Force and Angular Momentum
247(3)
15.7 Angular Impulse and Momentum Principles
250(10)
15.8 Steady Fluid Streams
260(5)
15.9 Propulsion with Variable Mass
265(12)
Review 1 Kinematics and Kinetics of a Particle
277(12)
16 Planar Kinematics of a Rigid Body
289(82)
Chapter Objectives 289(1)
16.1 Rigid-Body Motion
289(2)
16.2 Translation
291(1)
16.3 Rotation About a Fixed Axis
292(15)
16.4 Absolute General Plane Motion Analysis
307(8)
16.5 Relative-Motion Analysis: Velocity
315(14)
16.6 Instantaneous Center of Zero Velocity
329(10)
16.7 Relative-Motion Analysis: Acceleration
339(15)
16.8 Relative-Motion Analysis Using Rotating Axes
354(17)
17 Planar Kinetics of a Rigid Body: Force and Acceleration
371(60)
Chapter Objectives 371(1)
17.1 Moment of Inertia
371(14)
17.2 Planar Kinetic Equations of Motion
385(3)
17.3 Equations of Motion: Translation
388(12)
17.4 Equations of Motion: Rotation About a Fixes Axis
400(16)
17.5 Equations of Motion: General Plane Motion
416(15)
18 Planar Kinetics of a Rigid Body: Work and Energy
431(34)
Chapter Objectives 431(1)
18.1 Kinetic Energy
431(4)
18.2 The Work of a Force
435(2)
18.3 The Work of a Couple
437(2)
18.4 Principle of Work and Energy
439(14)
18.5 Conservation of Energy
453(12)
19 Planar Kinetics of a Rigid Body: Impulse and Momentum
465(35)
Chapter Objectives 465(1)
19.1 Linear and Angular Momentum
465(6)
19.2 Principle of Impulse and Momentum
471(15)
19.3 Conservation of Momentum
486(4)
19.4 Eccentric Impact
490(10)
Review 2 Planar Kinematics and Kinetics of a Rigid Body
500(15)
20 Three-Dimensional Kinematics of a Rigid Body
515(30)
Chapter Objectives 515(1)
20.1 Rotation About a Fixed Point
515(3)
20.2 The Time Derivative of a Vector Measured from a Fixed and Translating-Rotating System
518(5)
20.3 General Motion
523(9)
20.4 Relative-Motion Analysis Using Translating and Rotating Axes
532(13)
21 Three-Dimensional Kinetics of a Rigid Body
545(50)
Chapter Objectives 545(1)
21.1 Moments and Products of Inertia
545(10)
21.2 Angular Momentum
555(3)
21.3 Kinetic Energy
558(8)
21.4 Equations of Motion
566(14)
21.5 Gyroscopic Motion
580(6)
21.6 Torque-Free Motion
586(9)
22 Vibrations
595(35)
Chapter Objectives 595(1)
22.1 Undamped Free Vibration
595(13)
22.2 Energy Methods
608(6)
22.3 Undamped Forced Vibration
614(4)
22.4 Viscous Damped Free Vibration
618(3)
22.5 Viscous Damped Forced Vibration
621(3)
22.6 Electrical Circuit Analogs
624(6)
Appendixes 630(31)
A. Mathematical Expressions 630(2)
B. Numerical and Computer Analysis 632(9)
C. Vector Analysis 641(3)
D. Review for the Fundamentals of Engineering Examination 645(16)
Answers to Selected Problems 661(9)
Index 670


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