Structural Engineering SE All-in-One Exam Guide : Breadth and Depth, Second Edition /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Adams, Dave K. (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, N.Y. : McGraw Hill LLC, [2022]
Edición:Second edition.
Colección:McGraw-Hill's AccessEngineeringLibrary.
Temas:
Structural engineering > Examinations > Study guides.
Structural engineering > Examinations.
Electronic books.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • About the Author
  • Title Page
  • Copyright Page
  • Dedication
  • Contents
  • Preface to the Second Edition
  • Chapter 1 Introduction
  • 1-1 Professional Licensure
  • 1-2 The Exam: A Grader?s Perspective
  • 1-3 The Exam: A Writer?s Perspective
  • 1-4 Exam Format
  • 1-5 Knowledge Areas Within the Morning Module for Vertical and Incidental Lateral Forces (Exam Module 1 of 4)
  • 1-6 Understanding the Afternoon Module for Vertical and Incidental Lateral Forces (Exam Module 2 of 4)
  • 1-7 Knowledge Areas within the Morning Module for Lateral Forces (Exam Module 3 of 4)
  • 1-8 Understanding the Afternoon Module for Lateral Forces (Exam Module 4 of 4)
  • 1-9 Preparing for the Exam
  • 1-10 After the Exam
  • 1-11 The Next Code Reference Cycle
  • Chapter 2 Design Codes and Loading
  • 2-1 Understanding Intent and Purpose
  • 2-2 Building Codes
  • 2-3 Risk Categories
  • 2-4 Building Systems
  • 2-5 Bridge Codes
  • 2-6 Bridge Systems
  • 2-7 Design Methods
  • 2-8 Loads for Buildings (IBC and ASCE 7)
  • 2-9 Load Combinations for Buildings (IBC and ASCE 7)
  • 2-10 Loads and Load Combinations for Bridges (AASHTO)
  • 2-11 Recommended Readings
  • Chapter 3 Computer Modeling and Verification
  • 3-1 Creating a Structural Model for Computation
  • 3-2 Understanding Output
  • 3-3 Approximate Methods for Verifying Results
  • 3-4 Recommended Readings
  • Chapter 4 Construction Administration
  • 4-1 Quality Control
  • 4-2 Special Inspection and Structural Observation
  • 4-3 Consideration of Alternatives
  • 4-4 Detail Sketching
  • 4-5 Recommended Readings
  • Chapter 5 Structural Analysis
  • 5-1 Member Geometry
  • 5-2 Statically Determinate Structures
  • 5-3 Statically Indeterminate Structures
  • 5-4 Analysis of Beams in Bending
  • 5-5 Influence Diagrams
  • 5-6 Approximate Frame Analysis Methods
  • 5-7 Recommended Readings
  • Chapter 6 Reinforced Concrete Design
  • 6-1 Nomenclature
  • 6-2 General Requirements
  • 6-3 Strength Design of Flexural Members
  • 6-4 Serviceability Design of Flexural Members
  • 6-5 Shear and Torsion
  • 6-6 Special Considerations for Deep Beams
  • 6-7 Column Design
  • 6-8 Two-Way Slab Design
  • 6-9 Development of Reinforcement
  • 6-10 Anchorage to Concrete
  • 6-11 Horizontal Diaphragms and Collectors
  • 6-12 Concrete Moment?Resisting Frames
  • 6-13 Concrete Shear Walls
  • 6-14 Recommended Readings
  • Chapter 7 Prestressed Concrete Design
  • 7-1 Nomenclature
  • 7-2 General Principles and Requirements
  • 7-3 Prestress Losses
  • 7-4 Load Balancing and Tendon Profiles
  • 7-5 Flexural Member Design for Prestress Transfer Forces
  • 7-6 Flexural Member Design for Service-Level Forces
  • 7-7 Strength Design of Flexural Members
  • 7-8 Design for Shear and Torsion
  • 7-9 Recommended Readings
  • Chapter 8 Masonry Design
  • 8-1 Nomenclature
  • 8-2 General Requirements
  • 8-3 Design of Members for Flexure
  • 8-4 Design of Members for Shear
  • 8-5 Design of Members for Axial Loads
  • 8-6 Introduction to Prestressed Masonry
  • 8-7 Anchorage to Masonry
  • 8-8 Seismic Design Requirements
  • 8-9 Masonry Shear Walls
  • 8-10 Recommended Readings
  • Chapter 9 Foundation and Retaining Wall Design
  • 9-1 General Requirements
  • 9-2 Soil Loading and Design Values
  • 9-3 Isolated Shallow Pad Footings
  • 9-4 Other Types of Shallow Foundations
  • 9-5 Deep Foundations
  • 9-6 Retaining Walls
  • 9-7 Special Seismic Considerations
  • 9-8 Recommended Readings
  • Chapter 10 Structural Steel Design
  • 10-1 Nomenclature
  • 10-2 General Requirements
  • 10-3 Flexural Members
  • 10-4 Tension Members
  • 10-5 Compression Members
  • 10-6 Design of Plate Girders
  • 10-7 Base Plates
  • 10-8 Connections
  • 10-9 Composite Beams
  • 10-10 Horizontal Diaphragms
  • 10-11 Steel Moment-Resisting Frames
  • 10-12 Steel Braced Frames
  • 10-13 Other Steel Lateral Force-Resisting Systems
  • 10-14 Recommended Readings
  • Chapter 11 Cold-Formed Steel Design
  • 11-1 Nomenclature
  • 11-2 General Requirements
  • 11-3 Flexural Members
  • 11-4 Tension and Compression Members
  • 11-5 Connections
  • 11-6 Horizontal Diaphragms
  • 11-7 Shear Walls
  • 11-8 Recommended Readings
  • Chapter 12 Timber Design
  • 12-1 Nomenclature
  • 12-2 Basic Properties of Wood
  • 12-3 Adjustment of Design Values
  • 12-4 Design for Flexure
  • 12-5 Design for Shear
  • 12-6 Design for Compression
  • 12-7 Design for Tension
  • 12-8 Design for Bearing
  • 12-9 Combined Bending and Axial Loading
  • 12-10 Serviceability
  • 12-11 Connections
  • 12-12 Horizontal Diaphragms, Chords, and Collectors
  • 12-13 Shear Walls
  • 12-14 Recommended Readings
  • Chapter 13 Seismic Analysis and Design
  • 13-1 General Requirements
  • 13-2 Period
  • 13-3 Site-Specific Criteria
  • 13-4 Equivalent Lateral Force Procedure
  • 13-5 Horizontal Diaphragms
  • 13-6 Building Systems?Horizontal Combinations
  • 13-7 Building Systems?Vertical Combinations
  • 13-8 Horizontal Distribution of Seismic Forces?Rigid and Semirigid Diaphragms
  • 13-9 Vertical Distribution of Seismic Forces
  • 13-10 Horizontal Irregularities
  • 13-11 Vertical Irregularities
  • 13-12 Story Drift and P-Delta Effects
  • 13-13 Structural Walls and Their Anchorage
  • 13-14 Nonstructural Components
  • 13-15 Nonbuilding Structures
  • 13-16 Recommended Readings
  • Chapter 14 Wind Analysis and Design
  • 14-1 General Requirements
  • 14-2 Building Characteristics
  • 14-3 General Wind Load Parameters
  • 14-4 All Heights?The Directional Procedure
  • 14-5 Low-Rise Structures?The Envelope Procedure
  • 14-6 Other Structures
  • 14-7 Components and Cladding
  • 14-8 Recommended Readings
  • Chapter 15 Bridge Design
  • 15-1 Nomenclature
  • 15-2 The Design Process
  • 15-3 Loading
  • 15-4 Serviceability
  • 15-5 Concrete Superstructures
  • 15-6 Steel Superstructures
  • 15-7 Timber Superstructures
  • 15-8 Foundations and Substructures
  • 15-9 Designing for Lateral Forces
  • 15-10 Recommended Readings
  • Appendix A Vertical and Incidental Lateral Forces (Gravity/Other) Multiple-Choice Problems
  • Introduction
  • Appendix B Vertical and Incidental Lateral Forces (Gravity/Other)?Building Essay Problems
  • Introduction
  • Appendix C Vertical and Incidental Lateral (Gravity/Other) Forces? Bridge Essay Problems
  • Introduction
  • Appendix D Lateral Forces (Wind/Earthquake) Multiple-Choice Problems
  • Introduction
  • Appendix E Lateral Forces (Wind/Earthquake)?Building Essay Problems
  • Introduction
  • Appendix F Lateral Forces (Wind/Earthquake)?Bridge Essay Problems
  • Introduction
  • Appendix G Part 1: Solutions?Vertical Forces, Multiple-Choice Problems
  • Part 2: Solutions?Vertical Forces, Building Essay Problems
  • Part 3: Solutions?Vertical Forces, Bridge Essay Problems
  • Appendix H Part 1: Solutions?Lateral Forces, Multiple-Choice Problems
  • Part 2: Solutions?Lateral Forces, Building Essay Problems
  • Part 3: Solutions?Lateral Forces, Bridge Essay Problems
  • Index.

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