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Lecture
Finite Element Method: Basics and Applications
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Related lectures (32)
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Computational Geomechanics: Unconfined Flow
Explores unconfined flow in computational geomechanics, emphasizing weak form derivation and relative permeability.
Numerical Flow Simulation: Basics and Boundary Conditions
Covers the basics of numerical flow simulation, including boundary conditions and geometry reduction.
Buckling II: Instability of Slender Elastic Structures Under Compression
Explores buckling instability in slender elastic structures under compression, covering Euler buckling load and moment-curvature relations.
Conservation Equations in Fluid Dynamics
Covers the derivation of conservation equations in fluid dynamics and their practical applications in engineering problems.
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.
Internal Heat Transfer Effects
Covers internal heat transfer effects in heterogeneous reactions, emphasizing dimensionless numbers and transport effects.
Perturbed Boundary Conditions
Covers perturbed boundary conditions in fluid mechanics and linearization of dynamic systems.
Continuum Mechanics: Forces and Deformation
Covers the basics of continuum mechanics, including forces transmission, energy conservation, and body motion geometry.
Computational Geomechanics: Unconfined Flow Analysis
Explores unconfined flow analysis in geomechanics, emphasizing iterative solution methods and boundary condition considerations.
Numerical Integration
Covers the importance of reducing integration order for more efficient calculations.
