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Lecture
Finite Element Method: Global Approach
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Splines: Fundamentals and Applications
Explores B-splines, natural cubic splines, and smoothing splines in regression problems and their practical applications.
Finite Element Method: Local Approach
Explores the local approach of the finite element method, covering elementary matrices, assembly operations, stiffness matrix, system of equations, and practical examples.
Finite Element Method: Global Equivalence and Shape Functions
Discusses the equivalence of strong and weak formulations in the finite element method.
Piecewise Polynomial Interpolation: Splines
Covers piecewise polynomial interpolation with splines, focusing on Lagrange interpolation with Chebyshev nodes and error convergence.
Equivalence of Strong and Weak Formulations
Explores the equivalence between strong and weak formulations in the finite element method.
Finite Element Method: Key Concepts
Covers the key concepts behind the Finite Element Method and its applications in linear statics.
Newton Interpolation: Basics
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Computational Geomechanics: Meshing, Groundwater Flow, and Constitutive Behavior
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Spline Interpolation: Definition and Error Analysis
Explains spline interpolation and error analysis in approximating data points using piecewise linear and spline methods.
Finite Differences and Finite Elements: Variational Formulation
Discusses finite differences and finite elements, focusing on variational formulation and numerical methods in engineering applications.
