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Mechanical Engineering 102: Mechanics of Materials

Mechanical Engineering 102: Mechanics of Materials (Saylor Academy). Instructor: Professor Kenneth S. Manning. This course deals with topics in statics and solid analysis, focusing on understanding how rigid bodies react to applied forces and the effects that forces have on solids: stress, strain, deformation, torsion, twist, bending, beam design, shaft design, shear, trusses, machines, and frames.

Lecture 05 - Stress/Strain


Go to the Course Home or watch other lectures:

Lecture 01 - Introduction
Lecture 02 - Stress
Lecture 03 - Deformation
Lecture 04 - Strain
Lecture 05 - Stress/Strain
Lecture 06 - Poisson's Ratio
Lecture 07 - Axial Loading
Lecture 08 - Static Indeterminacy
Lecture 09 - Torsion of a Circular Shaft
Lecture 10 - Angle of Twist
Lecture 11 - Twist, and Stress Concentrations
Lecture 12 - Shear-Moment Diagrams
Lecture 13 - Bending in Prismatic Beams
Lecture 14 - More Bending, and Composite Beams
Lecture 15 - Composite and Reinforced Concrete Beams
Lecture 16 - Transverse Shear
Lecture 17 - Thin-Walled Vessels and Combined Loading
Lecture 18 - Plane Stress and Mohr's Circle
Lecture 19 - Basis of Beam Design
Lecture 20 - Mohr's Circle Part 2
Lecture 21 - Thermal Effects
Lecture 22 - Support of Columns
Lecture 23 - Deflection of Beams by Superposition
Lecture 24 - Columns
Lecture 25 - Shear, Connections
Lecture 26 - Shaft Design
Lecture 27 - Beam Deflection
Lecture 28 - Space Trusses
Lecture 29 - Trusses-Method of Sections
Lecture 30 - Frames
Lecture 31 - Frames and Machines
Lecture 32 - Frames and Machines
Lecture 33 - Trusses-Method of Joints