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tma4212:2019v:assignments [2019-05-15]
anne [Exercise/Project class]
tma4212:2019v:assignments [2019-05-16] (nåværende versjon)
anne [Exercise/Project class]
Linje 17: Linje 17:
 | [[http://​www.math.ntnu.no/​emner/​TMA4212/​2019v/​ovinger/​poisson.pdf|Exercise 3]] \\ The number of points have been redistributed,​ to give less emphasis to Problem 3. \\ If you find it easier to solve 3b) using symmetries, then do so.                                                                                                      | {{ :​tma4212:​2019v:​poisson.py |poisson.py}} ​                                                                                                                                                                                                    | 20.02 and 27.02    | 04.03. ​   | | [[http://​www.math.ntnu.no/​emner/​TMA4212/​2019v/​ovinger/​poisson.pdf|Exercise 3]] \\ The number of points have been redistributed,​ to give less emphasis to Problem 3. \\ If you find it easier to solve 3b) using symmetries, then do so.                                                                                                      | {{ :​tma4212:​2019v:​poisson.py |poisson.py}} ​                                                                                                                                                                                                    | 20.02 and 27.02    | 04.03. ​   |
 | [[http://​www.math.ntnu.no/​emner/​TMA4212/​2019v/​ovinger/​transport.pdf|Exercise 4]]  \\  Problem 1: Use the fact that the front will not hit the boundary \(x=3\) for \(t\leq 2\) (but if you are interested, check what happens if the front get too close to it). \\ Problem 2, choose for example \(r=1\) (to produce the hopefully exact solution), and \(r=0.5\), but again, you can try something else if you like. Choose reasonable boundary conditions ​ (you are only interested in the behaviour of the wave package), and solve the problem up to \(t=2\). ​                                                                                                                                                                                                                                                                              ​| ​                                                                                                                                                                                                                                               | 06.03. and 13.03. ​ | 18.03. ​   | | [[http://​www.math.ntnu.no/​emner/​TMA4212/​2019v/​ovinger/​transport.pdf|Exercise 4]]  \\  Problem 1: Use the fact that the front will not hit the boundary \(x=3\) for \(t\leq 2\) (but if you are interested, check what happens if the front get too close to it). \\ Problem 2, choose for example \(r=1\) (to produce the hopefully exact solution), and \(r=0.5\), but again, you can try something else if you like. Choose reasonable boundary conditions ​ (you are only interested in the behaviour of the wave package), and solve the problem up to \(t=2\). ​                                                                                                                                                                                                                                                                              ​| ​                                                                                                                                                                                                                                               | 06.03. and 13.03. ​ | 18.03. ​   |
-| [[http://​www.math.ntnu.no/​emner/​TMA4212/​2019v/​ovinger/​fem.pdf|Exercise 5]].| [[http://​www.math.ntnu.no/​emner/​TMA4212/​2019v/​ovinger/​oving5_sol.pdf|Ideas/​sketch of solutions]] (Updated 15.05). | By appointment (Anne) ​  | 12.04 |+| [[http://​www.math.ntnu.no/​emner/​TMA4212/​2019v/​ovinger/​fem.pdf|Exercise 5]].| [[http://​www.math.ntnu.no/​emner/​TMA4212/​2019v/​ovinger/​oving5_sol.pdf|Ideas/​sketch of solutions]] (Updated 15.05). \\ And [[http://​www.math.ntnu.no/​emner/​TMA4212/​2019v/​ovinger/​Implementation1D.pdf|some ideas for Problem 3]] (not to be considered as the solution). | By appointment (Anne) ​  | 12.04 |
 ===== Old exams ===== ===== Old exams =====
  
2019-05-16, Anne Kværnø