Lectures
Temporary plan - changes will be made
Week | Theme | Home Work | Remarks |
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34 | Introduction Dimensionsional analysis Flow in pipe | ||
35 | Summary of Dimensional Analysis Scaling Example: Falling bullet Regular perturbation | Exercise 1 | |
36 | The projectile problem Flo-Jo's 100m world record Kidney modeling | Exercise 2 | Self-study: Slides on kidney modeling |
37 | Singular perturbation Chemical reaction kinetics | Exercise 3 | |
38 | Stability and bifurcations Chemotaxis of amoeba Quenching-reactor | Exercise 4 | Self-study 1: Kreyszig (9th edition) chp. 4.3-4.5 (3.3-3-5 in 8th ed.) Self-study 2: Slides on quenching reaction |
39 | The logistic equation the world population Competition for resources Lotka-Volterra models | Exercise 5 and 6 | Self-study week: Read Population Models (or chapter on Population Models in compendium) Work on Exercise 6 No lectures. |
40 | Conservation principles 1d conservation laws 1st order PDEs Method of characteristics | Exercise 6 | Notes: On the method of characteristics Solution of first order PDEs Endimensjonale konserveringslover |
41 | Traffic modelling Boundary value problems for conservation laws Traffic: "Red light" and "2 to 1 lanes" | Exercise 7 | Note: Boundary value problems for conservation laws |
42 | Conservation laws in mechanics Flood waves in river | Exercise 8 | |
43 | Diffusion, properties Intermediate asymptotics Nuclear power plant | Exercise 9 | Self-study: Solution of Heat equation using the Fourier transform. Kryszig (9th edition) chp. 12.6 |
44 | Modeling of a dam Introduction to the project MODELING PROJECT | Homework: Read through modling project before the Thursday lecture!! |
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45 | MODELING PROJECT | Espen in Germany Monday-Wednesday | |
46 | MODELING PROJECT Presentations |
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47 | Old exams |