Suchergebnis: Katalogdaten im Herbstsemester 2020
|Vertiefung in Atmosphäre und Klima|
|Klimaprozesse und -wechselwirkungen|
|701-1235-00L||Cloud Microphysics |
Number of participants limited to 16.
Priority is given to PhD students majoring in Atmospheric and Climate Sciences, and remaining open spaces will be offered to the following groups:
- PhD student Environmental sciences
- MSc in Atmospheric and climate science
- MSc in Environmental sciences
All participants will be on the waiting list at first. Enrollment is possible until 13.09.2020. The waiting list is active until 25.09.2020. All students will be informed on September 16th, if they can participate in the lecture.
The lecture takes place if a minimum of 5 students register for it.
|W||4 KP||2V + 1U||U. Lohmann, N. Shardt|
|Kurzbeschreibung||Clouds are a fascinating atmospheric phenomenon central to the hydrological cycle and the Earth`s climate. Interactions between cloud particles can result in precipitation, glaciation or evaporation of the cloud depending on its microstructure and microphysical processes.|
|Lernziel||The learning objective of this course is that students understand the formation of clouds and precipitation and can apply learned principles to interpret atmospheric observations of clouds and precipitation.|
|Skript||This course will be designed as a reading course in 1-2 small groups of 8 students maximum. It will be based on the textbook below. The students are expected to read chapters of this textbook prior to the class so that open issues, fascinating and/or difficult aspects can be discussed in depth.|
|Literatur||Pao K. Wang: Physics and dynamics of clouds and precipitation, Cambridge University Press, 2012|
|Voraussetzungen / Besonderes||Target group: Doctoral and Master students in Atmosphere and Climate|
|701-1251-00L||Land-Climate Dynamics |
Number of participants limited to 36.
|W||3 KP||2G||E. L. Davin, R. Padrón Flasher, S. I. Seneviratne|
|Kurzbeschreibung||The purpose of this course is to provide fundamental background on the role of land surface processes (vegetation, soil moisture dynamics, land energy and water balances) in the climate system. The course consists of 2 contact hours per week, including lectures, group projects and computer exercises.|
|Lernziel||The students can understand the role of land processes and associated feedbacks in the climate system.|
|Skript||Powerpoint slides will be made available|
|Voraussetzungen / Besonderes||Prerequisites: Introductory lectures in atmospheric and climate science |
Atmospheric physics -> Link
Climate systems -> Link
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