Lectures related to Stress Power

Displacement Field by Point Forces

Explores solving displacement field by point forces using Green's functions and integration process to obtain total solution.

Solid Mechanics Principles: Greens Functions

Explores Greens functions in solid mechanics, emphasizing the solution of point forces and their impact on displacement fields.

Structural Mechanics Fundamentals

Covers the basics of structural mechanics, including forces classification, resultant force, and object responses to loads.

Virtual Work in Structural Mechanics

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

Virtual Work II: Examples of Potentials

Covers examples of potentials in virtual work for structural mechanics.

Solid Mechanics Principles: Eigenstrains

Covers eigenstrains, deformations in a body not caused by stress, and their significance in mechanics.

Introduction to Structural Mechanics

Introduces structural mechanics, covering tower challenges, truss structures, force systems, deformable bodies, and material behaviors.

Mechanics: Introduction and Calculus

Introduces mechanics, differential and vector calculus, and historical perspectives from Aristotle to Newton.

Structural Analysis: Equilibrium and Forces

Covers the analysis of structures by equilibrium and modeling real structures, including beams, cables, and internal forces.

Fracture Analysis: Energy and Mechanics

Explores macroscopic energy analysis of fracture, focusing on unstable crack growth and energy mechanics.

Structural Mechanics Principles: Equilibrium and Stability

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

Eshelby Inclusion: Mechanics and Eigenstrains

Explores the Eshelby method for mechanics of inclusions and eigenstrains, focusing on stress and strain fields inside inclusions.

Structural Mechanics Fundamentals

Introduces the fundamentals of structural mechanics, covering equilibrium, boundary conditions, free-body diagrams, and constraints.

Classical Laminate Theory

Covers Classical Laminate Theory for solving mechanics problems with multiple material layers, discussing displacements, strains, stresses, and equilibrium.

Systems of Forces III and Equilibrium 2D

Covers systems of forces in 3D, equilibrium in 2D, system isolation, free-body diagrams, supports, and joints.

Statical Determinacy and Equilibrium in Structural Mechanics

Explains statical and kinematical determinacy in structural mechanics, focusing on equilibrium and various configurations of plates in 2D.

Series Springs: Contact Hour 7

Covers the mechanics of series springs and the forces exerted by them.

Virtual Work Principles: Energy and Mechanics

Covers work, potential energy, and the principle of virtual work in structural mechanics.

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.

Introduction to Structural Mechanics: Systems of Forces

Introduces the fundamental concepts of forces, moments, and their classifications in structural mechanics.