SCHEDULE : 07:30-10:30 1,3,5
Course Name: Numerical Methods (Lec)
Course Description: A course covers the concepts of numerical analysis and computer software tools in dealing with engineering problems. It includes techniques in finding the roots of an equation, solving systems of linear and non-linear equations, eigenvalue problems, polynomial approximation and interpolation, ordinary and partial differential equations. The Monte-Carlo method, simulation, error propagation and analysis, the methods of least squares and goodness-of-fit tests are also discussed.
Prerequisite: EM 4 Differential Equation
Lecture Unit: 3 units – 3 hours/week
Course Outcome: After completing this course, the student must be able to
- Use the numerical methods in modern scientific computing.
- Familiar with finite precision computation.
- Model engineering systems using first and second order differential equations, and solve the equations both analytically and numerically.
- Employ the Taylor Series for approximation and error analysis.
- Formulate and apply numerical techniques for root finding, curve fitting, differentiation, and integration.
- Write computer programs to solve problems with MATLAB and or any object oriented capabilities depending upon the nature of the problem.
- Familiar with programming with numerical packages like MATLAB.
- Perform both hand computation and programming applied in MATLAB.
Course Topics:
- Introduction
- Non Linear Transcendental and Polynomial Function Techniques
- Iterative Bracketing Method
- Iterative Non-Bracketing /Open Method
- Iterative Polynomial Function Techniques
- System of Linear Equations
- Direct Methods
- Optimization
- Curve Fitting
- Numerical Differentiation Techniques
- Numerical Integration Techniques
- Ordinary Differential Equations
- Partial Differential Equation
- Teacher: Maria Annabelle Navarroza
Course Schedule:
13:30 - 15:00 (24) LEC/ALAB