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Applied Mechanics for Engineering Technology 7th edition [Kietas viršelis]

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  • Formatas: Hardback, 560 pages, aukštis x plotis x storis: 238x246x26 mm, weight: 1000 g
  • Išleidimo metai: 15-May-2003
  • Leidėjas: Pearson
  • ISBN-10: 0130933759
  • ISBN-13: 9780130933751
Kitos knygos pagal šią temą:
Applied Mechanics for Engineering Technology 7th editionDidesnis paveikslėlis
  • Formatas: Hardback, 560 pages, aukštis x plotis x storis: 238x246x26 mm, weight: 1000 g
  • Išleidimo metai: 15-May-2003
  • Leidėjas: Pearson
  • ISBN-10: 0130933759
  • ISBN-13: 9780130933751
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9780130933751.html
Raktažodžiai:
For courses in Statics and Dynamics offered by Engineering Technology Departments.

This introduction to applied mechanics text combines a straightforward, readable foundation in underlying physics principles with a consistent method of problem solving that strips a problem to essentials and solves it in a logical, organized manner. It presents the physics principles in small elementary steps; keeps the mathematics at a reasonable level (algebra, trigonometry, and geometry are used); provides an abundance of worked examples; and features problems that are as practical as possible without becoming too involved with many extraneous details.
PART ONE: STATICS
Introduction
1(34)
What and Why of Applied Mechanics
1(1)
Units and Basic Terms
2(6)
Method of Problem Solution and Workmanship
8(3)
Numerical Accuracy and Significant Figures
11(1)
Mathematics Required
12(1)
Algebraic Equation---One Unknown
12(2)
Simultaneous Equations---Two Unknowns
14(2)
Quadratic Equations
16(1)
Trigonometry: Right-Angle Triangles
17(2)
Sine and Cosine Laws: Non-Right-Angle Triangles
19(3)
Geometry
22(13)
Hints for Problem Solving
23(1)
Problems
24(7)
Review Problems
31(4)
Forces, Vectors, and Resultants
35(26)
Vectors
35(2)
Force Types, Characteristics, and Units
37(1)
Resultants
38(1)
Vector Addition: Graphical (Tip to Tail)
39(2)
Vector Addition: Analytical
41(2)
Components
43(3)
Vector Addition: Components
46(15)
Hints for Problem Solving
48(1)
Problems
48(9)
Review Problems
57(4)
Moments and Couples
61(20)
Moment of a Force
61(3)
Couples
64(17)
Hints for Problem Solving
70(1)
Problems
70(8)
Review Problems
78(3)
Equilibrium
81(60)
Free-Body Diagrams
81(2)
Three Equations of Equilibrium
83(1)
Free-Body Diagram Conventions
84(8)
Two-Force Members
92(3)
Pulleys
95(3)
Coplanar Concurrent Force Systems
98(4)
Coplanar Parallel Force Systems
102(6)
Coplanar Noncurrent Force Systems
108(33)
Hints for Problem Solving
112(1)
Problems
113(22)
Review Problems
135(6)
Structures and Members
141(56)
Method of Joints
141(10)
Method of Sections
151(4)
Method of Members
155(42)
Hints for Problem Solving
164(1)
Problems
165(26)
Review Problems
191(6)
Three-Dimensional Equilibrium
197(38)
Resultant of Parallel Forces
197(3)
Equilibrium of Parallel Forces
200(2)
Components and Resultants of Forces in Space
202(3)
Equilibrium in Three Dimensions
205(1)
Nonconcurrent, Three-Dimensional Systems
206(5)
Concurrent, Three-Dimensional Systems
211(24)
Hints for Problem Solving
215(1)
Problems
216(15)
Review Problems
231(4)
Friction
235(34)
Introduction
235(1)
Friction Laws for Dry Surfaces
235(1)
Coefficients of Friction
236(1)
Angle of Friction
237(9)
Belt Friction
246(23)
Hints for Problem Solving
251(1)
Problems
252(12)
Review Problems
264(5)
Centroids and Center of Gravity
269(18)
Introduction
269(1)
Centroids of Simple Areas
270(1)
Centroids of Composite Areas
271(3)
Centroids of Lines
274(13)
Hints for Problem Solving
277(1)
Problems
277(8)
Review Problems
285(2)
Moment of Inertia
287(30)
Moment of Inertia of an Area
287(1)
Parallel Axis Theorem
288(4)
Moment of Inertia of Composite Areas
292(3)
Radius of Gyration
295(2)
Mass Moment of Inertia
297(4)
Mass Moment of Inertia of Composite Bodies
301(3)
Radius of Gyration of Bodies
304(13)
Hints for Problem Solving
305(1)
Problems
305(9)
Review Problems
314(3)
PART TWO: DYNAMICS
Kinematics: Rectilinear Motion
317(26)
Introduction
317(1)
Displacement
318(1)
Velocity
319(1)
Acceleration
320(2)
Rectilinear Motion with Uniform Acceleration
322(6)
Projectiles
328(15)
Hints for Problem Solving
333(1)
Problems
334(6)
Review Problems
340(3)
Kinematics: Angular Motion
343(24)
Introduction
343(1)
Angular Displacement
344(1)
Angular Velocity
345(1)
Angular Acceleration
345(1)
Angular Motion with Uniform Acceleration
346(3)
Relationship between Rectilinear and Angular Motion
349(4)
Normal and Tangential Acceleration
353(14)
Hints for Problem Solving
356(1)
Problems
357(6)
Review Problems
363(4)
Plane Motion
367(48)
Relative Motion
367(13)
The Rolling Wheel
380(2)
Instantaneous Center of Rotation
382(33)
Hints for Problem Solving
391(1)
Problems
392(17)
Review Problems
409(6)
Kinetics
415(36)
Introduction
415(1)
Linear Inertia Force
416(1)
Linear Inertia Force: Dynamic Equilibrium
417(5)
Angular Inertia
422(2)
Angular Dynamic Equilibrium
424(3)
Plane Motion
427(24)
Hints for Problem Solving
434(1)
Problems
435(13)
Review Problems
448(3)
Work, Energy, and Power
451(48)
Introduction
451(1)
Work of a Constant Force
452(1)
Work of a Variable Force
453(3)
Potential and Kinetic Energy: Translational
456(3)
Conservation of Energy: Translational
459(3)
Kinetic Energy: Angular
462(2)
Conservation of Energy: Angular
464(4)
Conservation of Energy: Plane Motion
468(5)
Power and Efficiency
473(26)
Hints for Problem Solving
478(1)
Problems
478(17)
Review Problems
495(4)
Impulse and Momentum
499(20)
Linear Impulse and Momentum
499(2)
Angular Impulse and Momentum
501(3)
Conservation of Momentum
504(15)
Hints for Problem Solving
511(1)
Problems
511(6)
Review Problems
517(2)
Answers to Problems 519(16)
Index 535