Assignments and preliminary work
Self-grading the assignments
Based
on the criteria given in the model answers, you will grade, by
yourself, your own assignments, during the next week after the
submission deadline. You submit your grading by adding a comment to your
submission in the following format, containing the total number of
points (SELFGRADE), followed by how many points you got from each task.
After that you can add free-form feedback, especially if you didn't
understand something either in the exercise or the model answers.
You are encouraged to discuss and ask about the model answers and exercises in the forum as well, as long as you don't give away entire solutions before the submission deadline. You may use the comment field for other comments as well, but please include the SELFGRADE-keyword in all caps, so we can find the grading easily.
You can also ask details about the evaluation criteria at the end of Tuesday's lecture at 13:45-14:00.
Please note that the teacher will finally decide how many points you get, i.e. you may get finally less (or more!) points as your self-grading points are.
Example self-grading comment:
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SELFGRADE: Total 4.5 points
Task 1: 2.5 points:
- Task 1.1: 1 point
- Task 1.2: 1.5 points
Task 2: 2.0 points:
- Task 2.1: 1 point
- Task 2.2: 1 point
Commentary:
I didn't understand what was meant in Task 1.2., so I couldn't finish it. After reading the excellent model solution it dawned on me that I was just misreading the task.
In Task 2, I got all requirements correctly to get the points, but I noticed something weird in how the tachyon flux was derived, compared to Brown, E. & McFly, M., 2015.
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End of example.
Tools for the course: ParaView and MULTI
Provide here your 1st self-evaluation text.
Topic: Single particle motion
Provide here your 2nd self-evaluation text.
Topics: plasma state, velocity distribution function, macroscopic parameters
Provide here your 3rd self-evaluation text.
Topics: Fluid description and MHD
Model solutions for assignment 4.
Topics: MHD, magnetic diffusion, pressure balance, Rankine-Hugoniot relations
Model solutions for assignment 5.
Topic: plasma waves
Model solutions for assignment 6.
Model solutions for assignment 7.
Practice session 24.4.: The moon like interaction
Model solutions for assignment 8.
Practice session 1.5.: The 9th assignment: Comets and comet-like interaction
Model solutions for assignment 9.
Practice session 8.5.: Atmospheres and Venus-like interaction
Model solutions for assignment 10.
This folder includes the tasks for the Final project and the needed new files.