| S# |
Lecture |
Course |
Institute |
Instructor |
Discipline |
| 1 |
11. Unconstrained Optimization; Newton-Raphson and Trust Region Methods (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 2 |
12. Constrained Optimization; Equality Constraints and Lagrange Multipliers (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 3 |
13. ODE-IVP and Numerical Integration 1 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 4 |
16. ODE-IVP and Numerical Integration 4 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 5 |
18. Differntial Algebraic Equations 2 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 6 |
19. Differntial Algebraic Equations 3 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 7 |
20. Boundary Value Problem 1 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 8 |
21. Boundary Value Problems 2 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 9 |
22. Partial Differential Equations 1 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 10 |
25. Review Session (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 11 |
26. Partial Differential Equations 2 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 12 |
27. Probability Theory 2 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 13 |
28. Models vs. Data 1 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 14 |
30. Models vs. Data 3 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 15 |
33. Monte Carlo Methods 2 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 16 |
34. Stochastic Chemical Kinetics 1 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 17 |
35. Stochastic Chemical Kinetics 2 (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 18 |
36. Final Lecture (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 19 |
5. Eigenvalues and Eigenvectors (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 20 |
6. Singular Value Decomposition; Iterative Solutions of Linear Equations (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 21 |
7. Solutions of Nonlinear Equations; Newton-Raphson Method (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 22 |
8. Quasi-Newton-Raphson Methods (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
| 23 |
9. Homotopy and Bifurcation (M-I-T)
|
Numerical Methods Applied to Chemical Engineering, Fall 2015 (M-I-T)
|
MIT
|
Prof. James Swan
|
Applied Sciences
|
