Structures I Lectures

• Lecture 1: Four on the Floor!
• Lecture 2: What is S T R U C T U R E ?
• Lecture 3: The Role of Structural Failure
• Lecture 4: What is a Force?
• Lecture 5: Moments
• Lecture 6: Equilibrium
• Lecture 7: Elements of Coplanar Force Resolution
• Lecture 8: Graphic Methods of Coplanar Force Resolution
• Lecture 9: Algebraic Methods of Coplanar Force Resolution
• Lecture 10: Principle of Moments
• Lecture 11: Non-Concurrent, Non-Parallel Force systems
• Lecture 12: Couples
• Lecture 13: Supports
• Lecture 14: Free Body Diagrams
• Lecture 15: Two- and Three-Force Members
• Lecture 16: Multiple Force Members
• Lecture 17: Primary Loads
• Lecture 18: Lateral Loads
• Lecture 19: Load Distribution
• Lecture 20: Resolution of Distributed Loads
• Lecture 21: Resolution of Multiple Loads
• Lecture 22: Strength of Materials
• Lecture 23: Stress and Stress Prisms
• Lecture 24: Stress-Strain Curves
• Lecture 25: Elasticity and Deformation
• Lecture 26: Secondary Loads
• Lecture 27: Thermal Stresses
• Lecture 28: Centroids and Moment of Inertia
• Lecture 29: Columns
• Lecture 30: Radius of Gyration and Buckling
• Lecture 31: Beams
• Lecture 32: Beam Failure Modes
• Lecture 33: Internal Forces
• Lecture 34: Shear (V) and Shear Diagrams
• Lecture 35: Moment (M) and Moment Diagrams
• Lecture 36: Plotting V, M and Deflection
• Lecture 37: Development of Structural Form
• Lecture 38: Bending Stress
• Lecture 39: Shearing Stress
• Lecture 40: Beam Deflection
• Lecture 41: Beam Sizing
• Lecture 42: Introduction to Trusses
• Lecture 43: Trusses: Past and Present
• Lecture 44: Analysis of Trusses by Joints
• Lecture 45: Analysis of Trusses by Sections
• Lecture 46: Graphic Analysis of Trusses