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Lecture
Deformable Structures I: Introduction
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Related lectures (32)
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Virtual Work II: Conservative Forces and Equilibrium
Explores virtual work, conservative forces, equilibrium, and internal loads in structures.
Mechanics of Slender Structures: Elasticity & Buckling
Explores 3D elasticity, beam bending, and buckling phenomena in slender structures.
Relative Deformation in 3D: Strain Matrix
Explores relative deformation in 3D through strain matrix and displacement gradient, emphasizing constraints, stress-strain relations, and equilibrium equations.
Stress and Strain (beyond 1D)
Covers stress and strain beyond 1D, focusing on hyperstatic systems with pre-stressed elements and internal loads.
Stiffness vs Strength: Deformation and Load
Covers stiffness, strength, strain, stress, and strain measurement in structural mechanics.
Plates II: Föppl-von Kármán Equations
Covers the framework for plates, bending and stretching energies, and Föppl-von Kármán Equations, exploring mean and Gaussian curvatures.
Linear Elasticity: 3D
Covers linearity between stress and strain in 3D and isotropic linear elasticity equations.
Deformable Structures I
Introduces the analysis of deformable structures, focusing on equilibrium, stress, and strain in axial loading and stiffness.
Introduction to Structural Mechanics
Introduces structural mechanics concepts like distributed loads, centroids, and equilibrium in 2D and 3D.
Structural Mechanics Principles: Equilibrium and Stability
Explores the principles of structural mechanics, including internal loads, equilibrium stability, and the superposition principle.
