Lectures related to Strain and Stress in One Dimension

Introduction to Structural Mechanics: Stress and Strain

Covers stress equilibrium, strain, and constitutive equations in 2D and 3D.

Structural Mechanics Principles: Equilibrium and Stability

Explores the principles of structural mechanics, including internal loads, equilibrium stability, and the superposition principle.

Structural Mechanics: Beam Bending and Boundary Conditions

Explores the moment-curvature relation for beams, emphasizing stress distribution and typical boundary conditions.

Introduction to Structural Mechanics

Covers the basics of structural mechanics, including static forces, stress, strain, and structural elements like bars, cables, trusses, and beams.

Introduction to Structural Mechanics

Introduces key concepts in structural mechanics, such as determinate and indeterminate systems, linear superposition, and stress-strain relationships.

Deformable Structures: Statically Determinate and Indeterminate Systems

Discusses the analysis of statically determinate and indeterminate deformable structures.

Deformable Bodies: Introduction to Structural Mechanics

Covers deformable bodies, stress-strain relationships, material properties, and structural failure in structural mechanics.

Introduction to Structural Mechanics

Covers the fundamentals of structural mechanics, including axial loading, stress, strain, and generalized uniaxial loading.

Axial Loading: Stress and Strain in Deformable Bodies

Covers axial loading, stress, strain, and their implications in deformable bodies.

Structural Mechanics Fundamentals

Covers the fundamentals of structural mechanics, including materials, mechanics vocabulary, the Eiffel Tower, and the collapse of the Quebec Bridge.

Finite Element Analysis: Advanced Mechanisms in Engineering

Provides an overview of advanced mechanisms analysis using Finite Element Method and Finite Element Analysis in engineering applications.

Mechanics of Slender Structures: Elasticity & Buckling

Explores 3D elasticity, beam bending, and buckling phenomena in slender structures.

Linear Elasticity in 3D: Beam Bending

Covers linear elasticity in 3D, focusing on beam bending and stress-strain behavior of materials.

Internal Equilibrium of Solids

Covers internal equilibrium of solids, stress analysis, beam deformation, and rupture criteria.

Virtual Work in Structural Mechanics

Explores virtual work in structural mechanics, stability criteria, reaction load calculations, and mechanical systems with springs.

Internal Equilibrium of Solids

Covers the theory of elasticity, internal equilibrium, stress, and strain in deformable solid bodies.

Virtual Work in Structural Mechanics

Explores virtual work in structural mechanics, emphasizing equilibrium states and the application of virtual displacements.

Constitutive Laws: Elasticity Theory

Explores constitutive laws in elasticity theory, stress-deformation relationship, Hooke's laws, isotropy, and material symmetries.

Virtual Work II: Examples of Potentials

Covers examples of potentials in virtual work for structural mechanics.

Introduction to Structural Mechanics: Course Overview and Logistics

Introduces the ME-104 course on structural mechanics, covering objectives, logistics, and key concepts in understanding static forces and structural analysis.