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• week 1 introduction: basic ideas, concept, terminology and elements of a numerical method
• week 2 differential formulation, solution domain and mesh
• week 3 discretization, set of algebraic equations
• week 4 solution algorithm
• week 5 Preview: choice of numerical mesh, Cartesian
• week 6 polar-cylindrical and general orthogonal
• week 7 regular non-orthogonal and arbitrary triangular meshes
• week 8 discretization, truncation and discretization errors
• week 9 newton's method of solving algebraic equation of single variable and Crammer's rule for solving set of equations
• week 10 round off errors and their estimation
• week 11 Polynomials and finite differences: collocation-type polynomials
• week 12 finite difference-operator algebra and forms of polynomials
• week 13 relationship to Taylor series
• week 14 Finite difference: differences and Differential operators
• week 15 basic operator relations, relations of first, second and higher order derivatives to difference series
• week 16 solutions errors