This course provides an introduction to numerical methods and their applications to solve science and engineering problems. In addition, convergence and error analysis of numerical methods is covered. In addition, practical experience with implementing numerical methods and assessing resulting errors will be acquired through a number of programming assignments.
Software Engineering 132 CRs
C. Chapra , Numerical Methods for Engineers with Software and Programming Applications, McGraw Hill.
content serial | Description |
---|---|
1 | Introduction |
2 | Error Analysis |
3 | Solution of Equations in One Variable (Bisection Method) part 1 |
4 | Solution of Equations in One Variable (Bisection Method) part 2 |
5 | Solution of Equations in One Variable (Secant and Modified Secant Methods) part 1 |
6 | Solution of Equations in One Variable (Secant and Modified Secant Methods) part 2 |
7 | Solution of Equations in One Variable (Newton Raphson and Fixed Point Methods) part 1 |
8 | Solution of Equations in One Variable (Newton Raphson and Fixed Point Methods) part 2 |
9 | Numerical Integration part 1 |
10 | Numerical Integration part 2 |
11 | Numerical Interpolation part 1 |
12 | Numerical Interpolation part 2 |
13 | Direct Methods for Solving Linear Systems part 1 |
14 | Direct Methods for Solving Linear Systems part 2 |
15 | In-Direct Methods for Solving Linear Systems |
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