NUMERICAL METHODS II (2 Credits)

Learning Outcomes:

On successful completion of this course, student will be able to: Analyze alternative methods for any particular problem dealing with optimization; Solve ordinary differential equations, Finite Difference (parabolic, elliptics equations) and eigenvalue problems and choose the “best’’ method (or methods) for any particular problem; Solve boundary value problems and Finite element methods for any particular problem.

Topics:

One Dimensional Unconstrained Optimization;
Multidimensional Unconstrained Optimization;
Least Square Regression;
Runge Kutta Methods;
Stiffnes and Multistep Methods;
Boundary Value and Eigenvalue Problems;
Finite Difference : Elleptic Equations;
Finite Difference : Parabolic Equations;
Finite Element Method.

Published at : 09 October 2014 Updated at : 30 November 2017

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