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Virtual Power and FEM: Derivation and Application
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Related lectures (32)
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Boundary Value Problems in Elasticity: Superposition, Work-Energy
Covers stress-strain relations, superposition principle, and work-energy theorem.
Introduction to Structural Mechanics: Stress and Strain
Covers stress equilibrium, strain, and constitutive equations in 2D and 3D.
Stress and Strain: Real vs Nominal
Explores real and nominal strain rates, stress, deformation, and force in materials testing.
Continuum Mechanics: Forces and Deformation
Covers the basics of continuum mechanics, including forces transmission, energy conservation, and body motion geometry.
Elasticity Basics: Vibrational Modes Description
Covers the theory of elasticity to describe vibrational modes of mechanical resonators.
Axial Deformation in Elasticity: Fundamentals
Explores equilibrium equations, strain linearity, Hooke's law, and boundary conditions.
Deformation and Strain Tensors
Explores deformation and strain tensors, Lagrange representation, elasticity theory, and the divergence theorem.
Normal Stresses: Internal Stress and Strain
Introduces internal stress and strain, material properties, and design considerations for axial loads and direct shear.
Linear Statics of Deformable Solids
Introduces linear statics for linear elastic solids in small deformations, stress equilibrium, the Virtual Work Principle, and the Finite Element Method.
Plates I: Deformation, Strain, Stress, and Wrinkling
Covers deformation, strain, stress, and wrinkling in plates under pure bending, exploring applications and bending stiffness.
