Statics and Strength of Materials
Autor Robert L. Motten Limba Engleză Mixed media product – 14 apr 2009
Statics and Strength of Materials is new book that parallels and complements the author’s successful book, Applied Strength of Materials, that has served a broad array of programs emphasizing the applications of engineering mechanics since 1978 and is now in its 5th edition. This text is integrates the principles of Statics with those of Strength of Materials within a single book, providing strong fundamentals on which students and professionals can build additional skills and knowledge in their chosen specialty.
This book offers instructors in a variety of fields the flexibility to arrange curricula differently from the traditional three-credit course. The emphasis on applications in a variety of fields makes the book attractive for engineering technology, applied engineering, and industrial technology programs (in either associate degree or bachelor degree arrangements).
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Specificații
ISBN-13: 9780135159828
ISBN-10: 0135159822
Pagini: 744
Dimensiuni: 210 x 276 mm
Greutate: 1.97 kg
Ediția:1
Editura: Pearson Education
Colecția Prentice Hall
Locul publicării:Upper Saddle River, United States
ISBN-10: 0135159822
Pagini: 744
Dimensiuni: 210 x 276 mm
Greutate: 1.97 kg
Ediția:1
Editura: Pearson Education
Colecția Prentice Hall
Locul publicării:Upper Saddle River, United States
Cuprins
1 Basic Concepts in Statics and Strength of Materials
2 Forces and Free-Body Diagrams
3 Static Equilibrium
4 Forces in Frames, Structures, and Trusses
5 Friction Forces
6 Centroids and Moments of Inertia of Areas
7 Basic Concepts in Strength of Materials
8 Design Properties of Materials
9 Direct Stress, Deformation, and Design
10 Torsional Shear Stress and Torsional Deformation
11 Shearing Forces and Bending Moments in Beams
12 Stress Due to Bending
13 Shearing Stresses in Beams
14 Deflection of Beams
15 Combined Stresses
16 Columns
17 Pressure Vessels
18 Connections Appendix Answers to Selected Problems
2 Forces and Free-Body Diagrams
3 Static Equilibrium
4 Forces in Frames, Structures, and Trusses
5 Friction Forces
6 Centroids and Moments of Inertia of Areas
7 Basic Concepts in Strength of Materials
8 Design Properties of Materials
9 Direct Stress, Deformation, and Design
10 Torsional Shear Stress and Torsional Deformation
11 Shearing Forces and Bending Moments in Beams
12 Stress Due to Bending
13 Shearing Stresses in Beams
14 Deflection of Beams
15 Combined Stresses
16 Columns
17 Pressure Vessels
18 Connections Appendix Answers to Selected Problems
Caracteristici
For undergraduate, introductory level courses in Statics and Strength of Materials or Mechanics of Materials in departments of Mechanical Engineering Technology, Civil Engineering Technology, Aeronautical Engineering Technology, Construction Engineering Technology, Manufacturing Engineering Technology, Construction Management, or Architecture.
Statics and Strength of Materials is new book that parallels and complements the author’s successful book, Applied Strength of Materials, that has served a broad array of programs emphasizing the applications of engineering mechanics since 1978 and is now in its 5th edition. This text is integrates the principles of Statics with those of Strength of Materials within a single book, providing strong fundamentals on which students and professionals can build additional skills and knowledge in their chosen specialty.
This book offers instructors in a variety of fields the flexibility to arrange curricula differently from the traditional three-credit course. The emphasis on applications in a variety of fields makes the book attractive for engineering technology, applied engineering, and industrial technology programs (in either associate degree or bachelor degree arrangements).
Halmark Features
Statics and Strength of Materials is new book that parallels and complements the author’s successful book, Applied Strength of Materials, that has served a broad array of programs emphasizing the applications of engineering mechanics since 1978 and is now in its 5th edition. This text is integrates the principles of Statics with those of Strength of Materials within a single book, providing strong fundamentals on which students and professionals can build additional skills and knowledge in their chosen specialty.
This book offers instructors in a variety of fields the flexibility to arrange curricula differently from the traditional three-credit course. The emphasis on applications in a variety of fields makes the book attractive for engineering technology, applied engineering, and industrial technology programs (in either associate degree or bachelor degree arrangements).
Halmark Features
- Topics are integrated to a large degree to avoid duplication and to focus on the essential concepts and methods.
- As topics in statics are presented and in example problems, students are informed of how the subsequent coverage of strength of materials concepts use the results of the statics analyses and references are given to later chapters.
- The concepts of stress, strain, and deformation are introduced conceptually early in the book so students can relate to the effects produced by the forces and other loads being analyzed using Statics principles.
- Thus students acquire a qualitative appreciation of why careful determination of forces, torques, and moments is essential to analysis and design.
- Includes a wide variety of applications in the several fields for which the study of Strength of Materials is needed so students gain an appreciation for related disciplines in addition to their chosen specialties.
- Allows flexibility in curriculum planning while providing a comprehensive set of topics from which a given program can select those appropriate to its mission.
- Presumes students have acquired competencies in the principles of mathematics and physical science to include at least college algebra and trigonometry (pre-calculus) and basic physics mechanics.
- Uses Calculus primarily in the sections where basic concepts and fundamental equations of strength of materials are developed and they are organized so their use in the course is optional.
- This approach has been used successfully in all three of the author’s other books. Equilibrium analyses are performed with scalar, non-vector approaches.
- Units are a mixture of SI metric and U.S. Customary units in keeping with the dual usage evident in U.S. industry and construction.