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Lecture
Beam Bending: Theory and Applications
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Related lectures (32)
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3D Linear Elasticity & Beams
Covers 3D linear elasticity, stress, strain, beams' behavior under loads, and torsion.
Structural Mechanics: Beam Bending and Boundary Conditions
Explores the moment-curvature relation for beams, emphasizing stress distribution and typical boundary conditions.
Mechanics of Slender Structures: Elasticity & Buckling
Explores 3D elasticity, beam bending, and buckling phenomena in slender structures.
Beam Bending II: Internal Forces, Curvature, and Stiffness
Covers advanced topics in beam bending, stress tensors, elasticity, and Atomic Force Microscopy.
Linear Elasticity in 3D: Beam Bending
Covers linear elasticity in 3D, focusing on beam bending and stress-strain behavior of materials.
Introduction to Structural Mechanics
Covers the fundamentals of structural mechanics, focusing on beams, sign conventions, types of beams, and methods to calculate stress resultants.
Mechanics of Slender Structures: Elasticity, Plates, Shells
Covers the dimensional reduction in slender structures, constitutive laws, and mechanics of plates and shells.
Mechanics of Kirchhoff Rods II
Explores the mechanics of Kirchhoff rods, focusing on determining rod shapes in 3D and twisted solutions.
Mechanics of Slender Structures: Final Review and Overview
Covers the main learning objectives of ME-411, focusing on dimensional analysis, scalings, and mechanical elements.
Mechanics of Slender Structures: Dimensional Analysis and Scalings
Explores the use of dimensional analysis and scalings in understanding slender structural systems.
