Lectures related to Distributed Loads: Centroids and Centers of Mass

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

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.

Principle of Virtual Work: Structural Mechanics Applications

Covers the principle of virtual work and its applications in structural mechanics through various exercises and detailed calculations.

Arches and Cables: Structural Analysis Principles

Covers the principles of structural analysis for arches and cables, focusing on geometry and load distribution.

Designing Structures: Marshmallow Challenge and Mechanics

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

Virtual Work Principles: Energy and Mechanics

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

Introduction to Structural Mechanics

Introduces structural mechanics concepts like distributed loads, centroids, and equilibrium in 2D and 3D.

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.

Structural Analysis: Internal Forces and Displacements

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

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.

Written Corrections: Structural Mechanics Exercises

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

Equilibrium and Forces in Structural Mechanics

Discusses equilibrium principles and force analysis in structural mechanics through various exercises and practical examples.

Beam Analysis: Distributed Loads and Internal Forces

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

Equilibrium in 3D: Statical and Kinematical Analysis

Discusses equilibrium in three-dimensional systems, focusing on constraints and statical determinacy through practical examples.

Moments and Beams: Structural Analysis Fundamentals

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

Structural Mechanics Fundamentals

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

Virtual Work in Structural Mechanics

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

Static Analysis: Modeling Structural Behavior

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

Structural Mechanics Fundamentals

Covers the basics of structural mechanics, including materials, geometries, and classes of engineering materials.

Introduction to Structural Mechanics: Systems of Forces

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