Engineering Mechanics: Statics,9780534957414

Engineering Mechanics: Statics

by ;
Edition: 2nd
ISBN13: 9780534957414
ISBN10: 0534957412
Format: Hardcover
Pub. Date: 1999-03-07
Publisher(s): CL Engineering
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Summary

Nationally regarded authors Andrew Pytel and Jaan Kiusalaas bring a depth of experience to the Second Editions of ENGINEERING MECHANICS: STATICS AND DYNAMICS that can't be surpassed. They have refined their solid coverage of this material without overloading it with extraneous detail. Their extensive teaching experience at The Pennsylvania State University gives them first-hand knowledge of students' learning skill levels and how the study of mechanics needs to tie to the real world. Their presentation is designed to teach students how to effectively analyze a problem before plugging numbers into formulas. This approach benefits students tremendously as they encounter real life problems that may not always fit into standard formulas. These books are designed with a rich, concise, one-color presentation at a substantially lower cost than competing texts.

Table of Contents

Introduction to Statics
1(32)
Introduction
1(2)
Newtonian Mechanics
3(7)
Fundamental Properties of Vectors
10(6)
Representation of Vectors Using Rectangular Components
16(9)
Vector Multiplication
25(8)
Basic Operations with Force Systems
33(54)
Introduction
33(1)
Equivalence of Vectors
33(1)
Force
34(1)
Reduction of Concurrent Force Systems
35(9)
Moment of a Force about a Point
44(10)
Moment of a Force about an Axis
54(12)
Couples
66(12)
Changing the Line of Action of a Force
78(9)
Resultants of Force Systems
87(42)
Introduction
87(1)
Reduction of a Force System to a Force and a Couple
87(8)
Definition of Resultant
95(1)
Resultants of Coplanar Force Systems
96(8)
Resultants of Noncoplanar Force Systems
104(11)
Introduction to Distributed Normal Loads
115(14)
Coplanar Equilibrium Analysis
129(80)
Introduction
129(1)
Definition of Equilibrium
129(1)
Part A: Analysis of Single Bodies
130(1)
Free-Body Diagram of a Body
130(8)
Coplanar Equilibrium Equations
138(2)
Writing and Solving Equilibrium Equations
140(8)
Equilibrium Analysis for Single-Body Problems
148(11)
Part B: Analysis of Composite Bodies
159(1)
Free-Body Diagrams Involving Internal Reactions
159(11)
Equilibrium Analysis of Composite Bodies
170(8)
Special Cases: Two-Force and Three-Force Bodies
178(11)
Part C: Analysis of Plane Trusses
189(1)
Description of a Truss
189(1)
Method of Joints
190(7)
Method of Sections
197(12)
Noncoplanar Equilibrium
209(38)
Introduction
209(1)
Definition of Equilibrium
209(1)
Free-Body Diagrams
209(11)
Independent Equilibrium Equations
220(3)
Improper Constraints
223(1)
Writing and Solving Equilibrium Equations
224(8)
Equilibrium Analysis
232(15)
Beams and Cables
247(56)
Introduction
247(1)
Part A: Beams
247(1)
Internal Force Systems
247(8)
Analysis of Internal Forces
255(13)
Area Method for Drawing V-and M-Diagrams
268(14)
Part B: Cables
282(1)
Cables under Distributed Loads
282(11)
Cables under Concentrated Loads
293(10)
Dry Friction
303(50)
Introduction
303(1)
Coulomb's Theory of Dry Friction
303(3)
Problem Classification and Analysis
306(16)
Impending Tipping
322(7)
Angle of Friction; Wedges and Screws
329(8)
Ropes and Flat Belts
337(7)
Disk Friction
344(9)
Centroids and Distributed Loads
353(66)
Introduction
353(1)
Centroids of Plane Areas and Curves
353(17)
Centroids of Curved Surfaces, Volumes, and Space Curves
370(18)
Theorems of Pappus-Guldinus
388(5)
Center of Gravity and Center of Mass
393(8)
Distributed Normal Loads
401(18)
Moments and Products of Inertia of Areas
419(42)
Introduction
419(1)
Moments of Inertia of Areas and Polar Moments of Inertia
419(17)
Products of Inertia of Areas
436(6)
Transformation Equations and Principal Moments of Inertia of Areas
442(8)
Mohr's Circle for Moments and Products of Inertia
450(11)
Virtual Work and Potential Energy
461(38)
Introduction
461(1)
Planar Kinematics of a Rigid Body
461(3)
Virtual Work
464(2)
Method of Virtual Work
466(14)
Instant Center of Rotation
480(7)
Equilibrium and Stability of Conservative Systems
487(12)
APPENDIX A Numerical Integration 499(4)
A.1 Introduction
499(1)
A.2 Trapezoidal Rule
499(1)
A.3 Simpson's Rule
500(3)
APPENDIX B Finding Roots of Functions 503(4)
B.1 Introduction
503(1)
B.2 Newton's Method
503(1)
B.3 Secant Method
504(3)
APPENDIX C Densities of Common Materials 507(2)
Answers to Even-Numbered Problems 509(6)
Index 515

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