Lectures related to Structural Analysis: Load Cases and Fundamental Systems

Static Analysis: Modeling Structural Behavior

Covers static analysis and the importance of accurate structural modeling in engineering.

Moments and Beams: Structural Analysis Fundamentals

Presents the fundamental principles of moments and beams in structural analysis.

Beam Analysis: Distributed Loads and Internal Forces

Covers beam analysis under distributed loads, focusing on internal forces and moments.

Structural Analysis: Internal Forces and Displacements

Covers the analysis of internal forces and displacements in a beam supported at three points.

Structural Mechanics: Force Method for Beams

Covers the force method for analyzing beams supported at three points, focusing on moments and shear forces.

Deformable Structures: Statically Determinate and Indeterminate Systems

Discusses the analysis of statically determinate and indeterminate deformable structures.

Modeling Structures: Arches and Cables

Covers the modeling and analysis of arches and cables in structures.

Deformable Structures: Analyzing Hyperstatic Systems

Covers the analysis of hyperstatic structures using virtual work principles and computational methods.

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.

Designing Structures: Marshmallow Challenge and Mechanics

Covers the Marshmallow Challenge and explores structural mechanics concepts like beams, bars, and trusses.

Internal Load Diagrams: Structural Mechanics Exercises

Covers the correction of exercises on internal load diagrams in structural mechanics, focusing on frames, arches, and equilibrium calculations.

Beams: Internal Forces and Stress Resultants

Covers the fundamentals of beams, including types, stress resultants, and internal load diagrams.

Distributed Loads: Centroids and Centers of Mass

Discusses distributed loads, focusing on centroids and centers of mass in structural mechanics.

Structural Analysis: Reticulated Systems and Their Equilibrium

Covers the principles of structural analysis for reticulated systems, focusing on equilibrium, force diagrams, and the modeling of trusses and cables.

Beam Analysis: Understanding Torsion and Structural Forces

Covers beam analysis, focusing on torsion effects and structural forces in engineering.

Structural Mechanics Fundamentals

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

Virtual Work Principles: Structural Analysis Techniques

Discusses the principles of virtual work in structural analysis and their application to fixed beams and elastic materials.

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.

Calculating Deformations: Virtual Work Principles

Discusses the principles of calculating deformations in structures using virtual work methods and the impact of temperature on material behavior.

Written Corrections: Structural Mechanics Exercises

Provides written corrections for structural mechanics exercises, focusing on systems of forces and equilibrium in two dimensions.