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tma4212:2019v:assignments [2019-05-13]
anne [Exercise/Project class] |
tma4212:2019v:assignments [2019-05-15]
anne [Exercise/Project class] |
| | [[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]]. | 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). | By appointment (Anne) | 12.04 | |
| ===== Old exams ===== | ===== Old exams ===== |
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