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Related lectures (32)
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Mechanics of Kirchhoff Rods I
Explores the mechanics of slender structures, introducing concepts like finite strain and finite rotation theory.
Linear Elasticity: 3D
Covers linearity between stress and strain in 3D and isotropic linear elasticity equations.
Plates: Pure Bending, Wrinkling, and Plate Buckling
Explores the mechanics of slender structures, focusing on plates in pure bending, wrinkling, and plate buckling.
Continuum Mechanics: Forces and Deformation
Covers the basics of continuum mechanics, including forces transmission, energy conservation, and body motion geometry.
Shells II: Mechanics of Slender Structure
Covers the expression of energy, dimensional reduction, equilibrium equations, and the relationship between covariant and contravariant components in shell mechanics.
Finite & Infinite Deformation: Key Distinction
Explains the geometric interpretation of eigen vectors and values in material deformation.
3D Linear Elasticity & Beams
Covers 3D linear elasticity, stress, strain, beams' behavior under loads, and torsion.
Continuum Mechanics: Kinematics and Deformation Analysis
Covers kinematics and deformation in continuum mechanics, focusing on displacement vectors and the deformation gradient tensor.
Energy Equilibrium and Newton CG Method
Covers continuum mechanics, linear elasticity, force balance, divergence, finite element discretization, energy minimization, and Newton's method.
Lagrange Representation
Covers the Lagrange representation and the continuity equation for deformations, emphasizing the possibility of large deformations.
