Course ”Fys2160 – Thermal and statistical physics” fall 2020

Welcome to FYS2160! We're a team of 8 that will try to engage you in this first introduction to thermal and statistical physics. This autumn lectures will be digital (zoom, videos and lecture notes), group tutorials will be physical with a digital option and the lab will hopefully be really in the lab.

 

Active learning and learning assistant training

We promote active learning and engagements from students during lectures and tutorials, so that you as a student will learn the most and have the opportunity to give us feedback on how to improve our teaching. Students are encouraged to learn thermal physics by participating in the tutorial sessions dedicated to problem-solving assignments and discussion forum.  In the group tutorials, you have the opportunity to get individual feedback on your performance.

Teaching program

The course consists of self-study, assignments, group tutorials, lectures, and experimental lab. We have group tutorials for solving and discussion of weekly assigments. In two of the tutorials, we implement learning assitant training methods. These are closed groups with a total of 40 students who will be closely monitored throughout the semester. So, if you like the learning assistant help, then hurry up to sign up for these exercise groups. The other two are open groups where any one may participate as desired.  

Lectures will focus a lot on the basic concepts in thermal and statistical physics and how the concepts apply in exemplified thermal and statistical systems. Lectures may not cover the entire curriculum - you must make sure that you read the textbook and do assignments.

Textbooks

This year we will use two textbooks:

  • Daniel V. Schroeder: "An Introduction to Thermal Physics".
  • Anders Malthe-S?renssen:" Statistical and Thermal Physics
    Using Matlab/Python"

Tasks and Obligations

In addition to the weekly assignments, there will be 4 compulsory assignments. You must solve and submit each of them before the deadlines. You must have passed at least 3 of the obligatory assignments to qualify for the final written exam.

Laboratory exercises

There are two compulsory laboratory exercises as part of the course. These will be related to the theoretical part of the curriculum and combined with numerical exercises. In the weeks 36/37 and 42/43 you will have to find a time slot that is free and that hopefully suits you.

Numerical computations 

In this course we will use numerical computations to build intuition about physical processes and to find solutions. You must be able to write simple scripts in Python / Matlab or your favorite coding language to be able to follow this part of the course.  You will also be obliged to install and run software to do simulations on ensembles of models of atoms and molecules.

 

Publisert 12. aug. 2020 10:58 - Sist endret 12. aug. 2020 12:14