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spin:esc202_fs2021 [2021/03/29 14:09] stadel [Lectures] |
spin:esc202_fs2021 [2021/04/26 14:21] (current) stadel [Lectures] |
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[[http://www.ics.uzh.ch/~stadel/krone/public_downloads/esc202|ESC202 Video downloads]] | [[http://www.ics.uzh.ch/~stadel/krone/public_downloads/esc202|ESC202 Video downloads]] | ||
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+ | **Appologies:** due to an error there was no sound in the recording of 29. Mar. As such it was of little use and I didn't bother uploading the video. | ||
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15. Mar. 2021: {{ :spin:fs2021_week4.pdf |SPH METHOD: Equations and kernels}} | 15. Mar. 2021: {{ :spin:fs2021_week4.pdf |SPH METHOD: Equations and kernels}} | ||
- | 22. Mar. 2021: {{ :spin:fs2021_week5.pdf |SPH METHOD: part 2}} | + | 22. Mar. 2021: {{ :spin:fs2021_week5.pdf |SPH METHOD: part 2}} //Artificial Viscosity formula corrected!// |
29. Mar. 2021: {{ :spin:fs2021_week6.pdf |Kernels and a "Wind Tunnel"}} | 29. Mar. 2021: {{ :spin:fs2021_week6.pdf |Kernels and a "Wind Tunnel"}} | ||
+ | 12. Apr. 2021: {{ :spin:fs2021_week7_inflow.pdf |Howto: inflow/outflow BCs}} and followed by the {{ :spin:fs2021_week7.pdf |2-D Ising Model}} | ||
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+ | 26. Apr. 2021: {{ :spin:fs2021_week8.pdf |Travelling Salesperson Problem}} | ||
====== Assignments ====== | ====== Assignments ====== | ||
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4. Now, calculate the density using the Monaghan kernel defined in the lecture. Plot and compare to the density you get from the "top-hat" kernel (the Monaghan result should be a little smoother). | 4. Now, calculate the density using the Monaghan kernel defined in the lecture. Plot and compare to the density you get from the "top-hat" kernel (the Monaghan result should be a little smoother). | ||
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+ | 5. Using the SPH method, simulate the movement of a fluid through a "wind tunnel" that contains an overdensity in the middle as it was described in the lecture **(due between April 12th and April 19th)**! | ||
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+ | 6. 2D Ising Model: Using the Metropolis algorithm, plot the mean magnetization of a N by N grid of spins (+1 and -1) depending on the temperature. Visualise the spin state of the grid at different temperatures **(due April 26th)**! | ||
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+ | 7. Metropolis algorithm II: Implement the traveling merchant problem **(due May 3rd)**! | ||
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