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Lecture
Internal Forces in Beams
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Related lectures (32)
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Beam Bending: Theory and Applications
Covers the theory of beam bending, historical figures, moment-curvature relation, and implications of distributed loads.
Bending of Straight Beams
Explores bending of beams, strain energy, shear force, and deflection calculations.
Beams: Internal Forces and Stress Resultants
Covers the fundamentals of beams, including types, stress resultants, and internal load diagrams.
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.
Moments and Beams: Structural Analysis Fundamentals
Presents the fundamental principles of moments and beams in structural analysis.
Deformation of Straight Beams
Explores the deformation of straight beams, including deviated bending, compound bending, normal stress, and neutral axis.
Discontinuities in Diagrams: Concentrated Forces and Moments
Covers the analysis of discontinuities in diagrams caused by concentrated forces and moments in structures.
Calculating Centroid and Second Moment
Explains the step-by-step process of calculating centroids and second moments of complex shapes using integration and the parallel axis theorem.
Introduction to Structural Mechanics
Explores beam bending, stiffness, and curvature in mechanical systems using OCR-extracted slides from EPFL's Spring 2021 session.
Beam Bending: Theory and Applications
Explores beam bending theory, covering moment-curvature relation, pure bending, elasticity concepts, and examples of cantilever beams.
