Lectures related to Beams and Frames: Matching Conditions and Internal Loads

Beam Analysis: Distributed Loads and Internal Forces

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

Introduction to Structural Mechanics

Covers beams with distributed and concentrated forces, bending moment, shear force, and internal load diagrams.

Structural Mechanics: Systems of Forces

Covers systems of forces, moments, couples, and stress in 2D and 3D, as well as the effect of force-couple systems.

Non-Straight Beams in Structural Mechanics

Covers non-straight beams, frames, and matching conditions in structural mechanics.

Structural Mechanics Fundamentals

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

Structural Mechanics: Beam Bending and Boundary Conditions

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

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.

Virtual Work Principles: Energy and Mechanics

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

Buckling of Beams: Moment-Curvature Relation

Explores beam buckling, moment-curvature relation, deflection, and fundamental beam solutions in structural mechanics.

Beam Bending and Buckling Problems

Explores beam bending and buckling problems in structural mechanics, addressing written corrections and exam questions.

Systems of Forces in 3D

Explores systems of forces in three dimensions, emphasizing moments and couples, equilibrium, and scalar components.

Introduction to Structural Mechanics

Covers hyperstatic-hypostatic systems, equilibrium, and constraints in structural mechanics.

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.

Internal Load Diagrams: Structural Mechanics Exercises

Covers the analysis of internal load diagrams in structural mechanics through various exercises and examples.

Introduction to Structural Mechanics

Covers the fundamentals of structural mechanics, focusing on beams, sign conventions, types of beams, and methods to calculate stress resultants.

Introduction to Structural Mechanics: Written Correction

Focuses on correcting exercises in structural mechanics, emphasizing beam deflection and bending moments under various loads.

Beams: Internal Forces and Stress Resultants

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

Introduction to Structural Mechanics

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

Introduction to Structural Mechanics: Matching Conditions

Explores matching conditions in structural mechanics for non-straight beams, frames, and arches, emphasizing differential relations and constant determination.

Beams under nonuniform bending: Shear stresses and built-up beams

Covers shear stresses in beams and built-up beams, including shear flow calculations and stress superimposition.