Lectures related to Beam Bending: Understanding Deformation and Resistance

Singularity Functions: Integration Method

Introduces singularity functions to analyze beam bending and calculate shear and bending moments.

Structural Mechanics: Beam Bending and Boundary Conditions

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

Bending of Beams: Singularity Functions and Stress Analysis

Covers bending of beams, singularity functions, stress analysis, and second moment of area calculations.

Introduction to Structural Mechanics

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

Beam Bending II

Explores the relationship between moment, curvature, and deflection in beam bending scenarios, emphasizing the consideration of shear forces and deformations.

Beam Bending: Shear and Moment Diagrams

Covers the method of sections for calculating internal reactions, shear forces, and bending moments in beams.

Internal Forces and Deformation

Explores the relationship between loads, forces, and deformations in structures, focusing on cantilever beams.

Bending of Straight Beams

Explores bending of beams, strain energy, shear force, and deflection calculations.

Moments and Beams: Structural Analysis Fundamentals

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

3D Linear Elasticity & Beams

Covers 3D linear elasticity, stress, strain, beams' behavior under loads, and torsion.

Beams under Flexure

Discusses stresses in beams under flexure, including shear forces and bending moments.

Introduction to Structural Mechanics

Explores beam bending, stiffness, and curvature in mechanical systems using OCR-extracted slides from EPFL's Spring 2021 session.

Bending Beams: Moment of Inertia and Stress Analysis

Explores moment of inertia in bending beams and stress analysis for beam sections.

Beams: Internal Loads

Covers the analysis of beams, internal loads, stress distribution, and reaction calculations.

Beam Bending: Theory and Applications

Covers the theory of beam bending, historical figures, moment-curvature relation, and implications of distributed loads.

Discontinuities in Diagrams: Concentrated Forces and Moments

Covers the analysis of discontinuities in diagrams caused by concentrated forces and moments in structures.

Circular Torsion & Bending Beams

Covers stress analysis in circular torsion and bending of straight beams.

Internal Forces in Beams: Deformation and Constraints

Covers the analysis of internal forces in beams and deformation under loads.

Normal Stress in Beams: Bending Analysis

Explores normal stresses in beams during bending and the calculation of the second moment of area for various shapes.

Elasticity in Mechanics: Rods, Buckling, and Heat Transfer

Covers continuum bars, elasticity, rods, heat transfer, and structural analysis.