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651-1504-00L 4 Credits MSC D-USYS , D-PHYS , D-ERDW

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Snowcover: Physics and Modelling

Lecturers: Dr. Martin Schneebeli, Dr. Ruzica Dadic

Examiners: Dr. Martin Schneebeli, Dr. Henning Löwe, Dr. Ruzica Dadic

VVZ CR n/a

Last Updated: 2026-06-01 11:33:30

Abstract

Snow is a fascinating high-temperature material and relevant for applications in glaciology, hydrology, atmospheric sciences, polar climatology, remote sensing and natural hazards. This course introduces key concepts and underlying physical principles of snow, ranging from individual crystals to polar ice sheets.

Objective

The course aims at a cross-disciplinary overview about the phenomenology of relevant processes in the snow cover, traditional and advanced experimental methods for snow measurements and theoretical foundations with key equations required for snow modeling. Tutorials and short presentations will also consider the bigger picture of snow physics with respect to climatology, hydrology and earth science.

Content

The lectures will treat snow formation, crystal growth, snow microstructure, metamorphism, ice physics, snow mechanics, heat and mass transport in the snow cover, surface energy balance, snow models, wind transport, snow chemistry, electromagnetic properties, and experimental techniques. The tutorials include a demonstration/exercise part and a presentation part. The demonstration/exercise part consolidates key subjects of the lecture using small data sets, mathematical toy models, order of magnitude estimates, image analysis and visualization, small simulation examples, etc. The presentation is given by the students, summarizing a relevant paper on the topic. The first practical experience with modern methods measuring snow properties can be acquired in the field excursion.

Resources

Lecture Notes

Lecture notes, and selected publications.

General Information

Language: English
Levels: MSC
Frequency: Yearly recurring

Examination

Type: end-of-semester examination
Mode: written 90 minutes
Aids: - electronic calculator- exam is open book (digital lecture notes can be used)

A short presentation (10 min by the student ) or a 2-page graphical summary (6000 characters) about a relevant snow publication in one of the tutorials is the prerequisite to pass the course.A bonus point (+0.25 grade) for the final grade can be acquired by solving 6 out of 12 exercises.

Course Components

Type	Title	Time & Place	Hours
lecture with exercise	Snowcover: Physics and Modelling	Mon 16:15-19:00 (LEE D 101)	3 h weekly