Mechanics of Materials An Integrated Learning System Instructors Solution Manual 3rd Edition by Timothy Philpot ISBN 978-1118570999 1118570995
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Product details:
ISBN 10: 1118570995
ISBN 13: 978-1118570999
Author: Timothy A. Philpot
Now in its 4th Edition, Timothy A. Philpot’s Mechanics of Materials: An Integrated Learning Systemcontinues to help engineering students visualize key mechanics of materials concepts better than any other text available, following a sound problem solving methodology while thoroughly covering all the basics. The fourth edition retains seamless integration with the author’s award-winning MecMovies software. Content has been thoroughly revised throughout the text to provide students with the latest information in the field.
Table of contents:
1. Stress
1.1 Introduction
1.2 Normal Stress Under Axial Loading
1.3 Direct Shear Stress
1.4 Bearing Stress
1.5 Stresses on Indined Sections
1.6 Equality of Shear Stresses on Perpendicular Planes
2. Strain
2.1 Displacement, Deformation, and the Concept of Strain
2.2 Normal Strain
2.3 Shear Strain
2.4 Thermal Strain
3. Mechanical Properties of Materials
3.1 The Tension Test
3.2 The Stress-Strain Diagram
3.3 Hooke’s Law
3.4 Poisson’s Ratio
4. Design Concepts
4.1 Introduction
4.2 Types of Loads
4.3 Safety
4.4 Allowable Stress Design
4.5 Load and Resistance Factor Design
5. Axial Deformation
5.1 Introduction
5.2 Saint-Venart’s Principle
5.3 Deformations in Axially Loaded Bars
5.4 Deformations in a Systemof Axially Loaded Bars
5.5 Statically Indeterminate Axially Loaded Members
5.6 Thermal Effects on Axial Deformation
5.7 Stress Concentrations
6. Torsion
6.1 Introduction
6.2 Torsional Shear Strain
6.3 Torsional Shear Stress
6.4 Stresses on Oblique Planes
6.5 Torsional Deformations
6.6 Torsion Sign Conventions
6.7 Gears in Torsion Assemblies
6.8 Power Transmission
6.9 Statically Indeterminate Torsion Members
6.10 Stress Concentrations in Circular Shafts Under Torsional Loadings
6.11 Torsion of Noncircular Sections
6.12 Torsion of Thin-Walled Tubes: Shear Flow
7. Equilibrium of Beams
7.1 Introduction
7.2 Shear and Moment in Beams
7.3 Graphical Method for Constructing Shear and Moment Diagrams
7.4 Discontinuity Functions to Represent Load, Shear, and Moment
8. Bending
8.1 Introduction
8.2 Flexural Strains
8.3 Normal Stresses in Beams
8.4 Analysis of Bending Stresses in Beams
8.5 Introductory Beam Design for Strength
8.6 Flexural Stresses in Beams of Two Materials
8.7 Bending Due to Eccentric Axial Load
8.8 Unsymmetric Bending
8.9 Stress Concentrations Under Flexural Loadings
9. Shear Stress in Beams
9.1 Introduction
9.2 Resultant Forces Produced by Bending Stresses
9.3 The Shear Stress Formula
9.4 The First Moment of Area Q
9.5 Shear Stresses in Beams of Rectangular Cross Section
9.6 Shear Stresses in Beams of Circular Cross Section
9.7 Shear Stresses in Webs of Flanged Beams
9.8 Shear Flow in Built-Up Members
9.9 Shear Stress and Shear Flow in Thin-Walled Members
9.10 Shear Centers of Thin-Walled Open Sections
10. Beam Deflections
10.1 Introduction
10.2 Moment-Curvature Relationship
10.3 The Differential Equation of the Elastic Curve
10.4 Deflections by Integration of a Moment Equation
10.5 Deflections by Integration of Shear-Force or Load Equations
10.6 Deflections Using Discontinuity Functions
10.7 Method of Superposition
11. Statically Indeterminate Beams
11.1 Introduction
11.2 Types of Statically Indeterminate Beams
11.3 The Integration Method
11.4 Use of Discontinuity Functions for Statically Indeterminate Beams
11.5 The Superposition Method
12. Stress Transformations
12.1 Introduction
12.2 Stress at a General Point in an Arbitrarily Loaded Body
12.3 Equilibrium of the Stress Element
12.4 Plane Stress
12.5 Generating the Stress Element
12.6 Equilibrium Method for Plane Stress Transformations
12.7 General Equations of Plane Stress Transformation
12.8 Principal Stresses and Maximum Shear Stress
12.9 Presentation of Stress Transformation Results
12.10 Mohr’s Circle for Plane Stress
12.11 General State of Stress at a Point
13. Strain Transformations
13.1 Introduction
13.2 Two-Dimensional or Plane Strain
13.3 Transformation Equations for Plane Strain
13.4 Principal Strains and Maximum Shearing Strain
13.5 Presentation of Strain Transformation Results
13.6 Mohr’s Circle for Plane Strain
13.7 Strain Measurement and Strain Rosettes
13.8 Generalized Hooke’s Law for Isotropic Materials
14. Thin-Walled Pressure Vessels
14.1 Introduction
14.2 Spherical Pressure Vessels
14.3 Cylindrical Pressure Vessels
14.4 Strains in Pressure Vessels
15. Combined Loads
15.1 Introduction
15.2 Combined Axial and Torsional Loads
15.3 Principal Stresses in a Flexural Member
15.4 General Combined Loadings
15.5 Theories of Failure
16. Columns
16.1 Introduction
16.2 Buckling of Pin-Ended Columns
16.3 The Effect of End Conditions on Column Buckling
16.4 The Secant Formula
165 Empirical Column Formulas-Centric Loading
166 Eccentrically Loaded Columns
17. Energy Methods
17.1 Introduction
17.2 Work and Strain Energy
17.3 Elastic Strain Energy for Axial Deformation
17.4 Elastic Strain Energy for Torsional Deformation
17.5 Elastic Strain Energy for Flexural Deformation
17.6 Impact Loading
17.7 Work-Energy Method for Single Loads
17.8 Method of Virtual Work
17.9 Deflections of Trusses by the Virtual-Work Method
17.10 Deflections of Beams by the Virtual-Work Method
17.11 Castigliano’s Second Theorem
17.12 Calculating Deflections of Trusses by Castigliano’s Theorem
17.13 Calculating Deflections of Beams by Castigliano’s Theorem
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Tags: Timothy Philpot, Mechanics of Materials, An Integrated, Solution Manual