Principles of Structural Analysis and Design

 

LECTURES NI SIR MARS

PRINCIPLES OF STRUCTURAL

ANALYSIS AND DESIGN

Message from Sir Mars

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TABLE OF CONTENTS

PART 1.    Statics of Rigid Bodies | Engineering Mechanics I

          

PART 2.    Structural Theory

PART 3.    Principles of Reinforced Concrete

PART 4.    Principles of Steel Design

PART 5.    Earthquake Engineering

Part 1

STATICS OF RIGID BODIES |

 ENGINEERING MECHANICS I

LECTURES NI SIR MARS

• Statics of Rigid Bodies - General Principles
• Video Lecture
• Lecture Notes
• Resultant Force - Parallelogram Law & Triangle Rule
• Video Lecture 1
• Video Lecture 2
• Lecture Notes
• Resultant Force - Scalar Notation & Cartesian Vector Notation
• Video Lecture 1
• Video Lecture 2
• Lecture Notes
• Resultant Force - Concurrent Noncoplanar Force System
• Video Lecture 1
• Video Lecture 2
• Lecture Notes
• Position Vectors
• Video Lecture
• Lecture Notes
• Force Vector Directed Along a Line
• Video Lecture 1
• Video Lecture 2
• Lecture Notes
• Dot Product
• Video Lecture
• Lecture Notes
• The Free-Body Diagram
• Video Lecture
• Lecture Notes
• Equilibrium of Coplanar Force System
• Video Lecture
• Lecture Notes
• Equilibrium of Three-Dimensional Force Systems
• Video Lecture
• Lecture Notes
• Moment of a Force - Scalar Formulation
• Video Lecture
• Lecture Notes
• Cross Product
• Video Lecture
• Lecture Notes
• Principle of Moments
• Video Lecture
• Lecture Notes
• Moment of a Force about a Specified Axis
• Video Lecture
• Lecture Notes
• Moment of a Couple
• Video Lecture
• Lecture Notes
• Simplification of Force and Couple System
• Video Lecture
• Lecture Notes
• Reduction of a Simple Distributed Loading
• Video Lecture
• Lecture Notes
• Equilibrium in Two Dimensions
• Video Lecture
• Lecture Notes
• Equilibrium in Three Dimensions
• Video Lecture
• Lecture Notes

Part 2

STRUCTURAL THEORY

LECTURES NI SIR MARS

• Introduction to Structural Theory
• Video Lecture
• Lecture Notes
• The Analysis and Design Process
• Video Lecture
• Lecture Notes
• Structural Forms
• Video Lecture
• Lecture Notes
• Codes, Classes of Loadings
• Video Lecture
• Lecture Notes
• Dead Loads
• Video Lecture
• Lecture Notes
• Live Loads
• Video Lecture
• Lecture Notes
• Reduction of Live Loads
• Video Lecture
• Lecture Notes
• Wind Loads
• Video Lecture 1
• Video Lecture 2
• Video Lecture 3
• Video Lecture 4
• Lecture Notes
• Earthquake Loads
• Video Lecture 1
• Video Lecture 2
• Video Lecture 3
• Lecture Notes
• Idealization of Structures
• Video Lecture
• Lecture Notes
• Tributary Loadings
• Video Lecture
• Lecture Notes
• Determinacy and Stability of Beams, Pin-Connected Structures and Frames
• Video Lecture
• Lecture Notes
• Determinacy and Stability of Trusses
• Video Lecture
• Lecture Notes
• Assumption for Analysis of Trusses
• Video Lecture
• Lecture Notes
• Zero-Force Members in Trusses
• Video Lecture
• Lecture Notes
• Analysis of Complex Trusses
• Video Lecture
• Lecture Notes
• Analysis of Space Trusses
• Video Lecture 1
• Video Lecture 2
• Lecture Notes
• Cables Subjected to Concentrated Loads
• Video Lecture
• Lecture Notes
• Parabolic Cables
• Video Lecture
• Lecture Notes
• Catenary Cables
• Video Lecture
• Lecture Notes
• Double Integration Method
• Video Lecture 1
• Video Lecture 2
• Video Lecture 3
• Lecture Notes
• Moment Diagram by Parts
• Video Lecture
• Lecture Notes
• Moment-Area Method
• Video Lecture 1
• Video Lecture 2
• Video Lecture 3
• Video Lecture 4
• Lecture Notes
• Conjugate Beam Method
• Video Lecture 1
• Video Lecture 2
• Video Lecture 3
• Video Lecture 4
• Lecture Notes
• Virtual Work Method for Beams and Frames
• Video Lecture 1
• Video Lecture 2
• Video Lecture 3
• Lecture Notes
• Virtual Work Method for Trusses
• Video Lecture 1
• Video Lecture 2
• Video Lecture 3
• Lecture Notes
• Castigliano's Theorem for Trusses
• Video Lecture 1
• Video Lecture 2
• Lecture Notes
• Castigliano's Theorem for Beams and Frames
• Video Lecture
• Lecture Notes
• Three Moment Equation for Indeterminate Beams
• Video Lecture 1
• Video Lecture 2
• Video Lecture 3
• Video Lecture 4
• Video Lecture 5
• Video Lecture 6
• Lecture Notes
• Three Moment Equation for Indeterminate Frames
• Video Lecture
• Lecture Notes
• Three Moment Equation for Determining Deflections
• Video Lecture
• Lecture Notes
• Fixed End Moments
• Video Lecture
• Lecture Notes
• Slope Deflection Method for Indeterminate Beams
• Video Lecture
• Lecture Notes
• Slope Deflection Method for Frames without Sidesway
• Video Lecture
• Lecture Notes
• Slope Deflection Method for Frames with Sidesway
• Video Lecture
• Lecture Notes
• Portal Method
• Video Lecture
• Lecture Notes
• Cantilever Method
• Video Lecture
• Lecture Notes
• Influence Lines for Beams
• Video Lecture
• Lecture Notes
• Influence Lines for Floor Girders
• Video Lecture
• Lecture Notes
• Influence Lines for Trusses
• Video Lecture
• Lecture Notes
• Moment Distribution Method for Indeterminate Beams
• Video Lecture
• Lecture Notes
• Moment Distribution Method for Indeterminate Frames without Sidesway
• Video Lecture
• Lecture Notes
• Moment Distribution Method for Indeterminate Frames with Sidesway
• Video Lecture
• Lecture Notes
• Method of Consistent Deformation for Indeterminate Beams
• Video Lecture
• Lecture Notes
• Method of Consistent Deformation for Indeterminate Frames
• Video Lecture
• Lecture Notes
• Method of Consistent Deformation for Indeterminate Trusses
• Video Lecture
• Lecture Notes

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SPECIAL NOTE TO MY STUDENTS:

• Notes for my classes

Part 4

PRINCIPLES OF STEEL DESIGN

LECTURES NI SIR MARS

• 1.1 Structural Design - An Introduction to Steel Design
• Video Lecture
• Pdf Notes

• 1.2 Loads - An Introduction to Steel Design
• Video Lecture
• Pdf Notes

• 1.3 Building Codes - An Introduction to Steel Design
• Video Lecture
• Pdf Notes

• 1.4 Design Specifications - An Introduction to Steel Design
• Video Lecture
• Pdf Notes

• 1.5 Structural Steel - An Introduction to Steel Design
• Video Lecture
• Pdf Notes

• 1.6 Standard Cross-Sectional Shapes - An Introduction to Steel Design
• Video Lecture
• Pdf Notes

• 2.1 Design Philosophies
• Video Lecture
• Pdf Notes

• 2.2 Load Factors, Resistance Factors, and Load Combinations for LRFD
• Video Lecture
• Pdf Notes

• 2.3 Safety Factors and Load Combinations for ASD
• Video Lecture
• Pdf Notes

• 2.4 AISC Steel Construction Manual
• Video Lecture
• Pdf Notes

• 2.5 ASEP'S NSCP 2015 (7th Edition)
• Video Lecture
• Pdf Notes

• 3.1 Introduction to Tension Members
• Video Lecture
• Pdf Notes

• 3.2 Tensile Strength
• Video Lecture
• Pdf Notes

• 3.3 Effective Area
• Video Lecture
• Pdf Notes

• 3.4 Staggered Fasteners
• Video Lecture
• Pdf Notes

• 3.5 Block Shear
• Video Lecture
• Pdf Notes

• 3.6 Design of Tension Members
• Video Lecture
• Pdf Notes

• 3.7 AISC Tables for the Design of Tension Members
• Video Lecture
• Pdf Notes

• 3.8 Design of Threaded Rods and Cables
• Video Lecture
• Pdf Notes

• 3.9 Design of Tension Members in Roof Trusses
• Video Lecture
• Pdf Notes

• 4.1 Column Theory
• Video Lecture
• Pdf Notes

• 4.2 Compression Strength of Columns
• Video Lecture
• Pdf Notes

• 4.3 Local Stability of Compression Members
• Video Lecture
• Pdf Notes

• 4.4 Tables for Compression Members
• Video Lecture
• Pdf Notes

• 4.5 Design of Compression Members
• Video Lecture
• Pdf Notes

• 4.6 Manual Design of Compression Members
• Video Lecture
• Pdf Notes

• 4.7 Compression Members (Axis Bending)
• Video Lecture
• Pdf Notes

• 4.8 Design of Braced Compression Members
• Video Lecture
• Pdf Notes

• 4.9 Stiffness for Columns that are Part of a Continuous Frame
• Video Lecture
• Pdf Notes

• 4.10 Stiffness Reduction Factor
• Video Lecture
• Pdf Notes

• 4.11 Torsional and Flexural-Torsional Buckling
• Video Lecture
• Pdf Notes

• 4.12 Built-Up Members
• Video Lecture
• Pdf Notes

• 5.1 Introduction to Design and Analysis of Steel Beams
• Video Lecture
• Pdf Notes

• 5.2 Bending Stress and the Plastic Moment
• Video Lecture
• Pdf Notes

• 5.3 Stability of Steel Beams
• Video Lecture
• Pdf Notes

• 5.4 Classification of Shapes
• Video Lecture
• Pdf Notes

• 5.5 Bending Strength of Compact Shapes
• Video Lecture
• Pdf Notes

• 5.6 Bending Strength of NonCompact Shapes
• Video Lecture
• Pdf Notes

• 5.7 Shear Strength
• Video Lecture
• Pdf Notes

• 5.8 Block Shear for Beams
• Video Lecture
• Pdf Notes

• 5.9 Deflections
• Video Lecture
• Pdf Notes

• 5.10 Design of Beams
• Video Lecture
• Pdf Notes

• 5.11 Design of Beams using Table 3-10-11
• Video Lecture
• Pdf Notes

• 5.12 Floor and Roof Framing Systems
• Video Lecture
• Pdf Notes

• 5.13 Holes in Beams
• Video Lecture
• Pdf Notes

• 5.14 Design of Open Web Steel Joists
• Video Lecture
• Pdf Notes

• 5.15 Beam Bearing Plates
• Video Lecture
• Pdf Notes

• 5.16 Column Base Plates
• Video Lecture
• Pdf Notes

• 5.17 Biaxial Bending
• Video Lecture
• Pdf Notes

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Special Notes to My Students:

MF Sched Notes 1

TF Sched Notes 1

MF Sched Notes 2

TF Sched Notes 2

Part 5

EARTHQUAKE ENGINEERING

LECTURES NI SIR MARS

• Earthquake Facts, Causes of Earthquake
• Lecture Video
• Lecture Notes
• Tectonic Plates, Faults
• Lecture Video
• Lecture Notes
• Faulting and Seismic Zones in the Philippines
• Lecture Video
• Lecture Notes
• Measurement of Earthquakes; Magnitude vs Intensity
• Lecture Video
• Lecture Notes
• Dynamics of Vibration
• Lecture Video
• Lecture Notes
• Modelling of Structures
• Lecture Video
• Lecture Notes
• Equations of Motion
• Lecture Video
• Lecture Notes
• Dynamic Response of a Single-Storey Structure
• Lecture Video
• Lecture Notes
• Free Vibration Response
• Lecture Video
• Lecture Notes
• Systems with Multiple Degrees of Freedom
• Lecture Video
• Lecture Notes
• Effects of Soils on Ground Motion
• Lecture Video
• Lecture Notes
• NSCP in relation to Earthquake-Resistant Structural Design
• Lecture Video
• Lecture Notes

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This section is for my Students in CEnS 152 (Earthquake Engineering): 

Class Notes/Solutions 1

          Class Notes/Solutions 2