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280304 VU PM-Met-2 VU Meteorology II (PI) (2017W)
Continuous assessment of course work
Labels
Vorlesungsteil: HS1, Mo, 17:00-19:30, max. 50 Personen
Übungsteil: Raum 2E206 Di, 11:00-12:00, max. 25 Personen
Übungsteil: Raum 2E206 Di, 11:00-12:00, max. 25 Personen
Registration/Deregistration
Note: The time of your registration within the registration period has no effect on the allocation of places (no first come, first served).
- Registration is open from Th 14.09.2017 10:00 to Th 28.09.2017 23:59
- Registration is open from Tu 03.10.2017 10:00 to Th 19.10.2017 23:59
- Deregistration possible until Th 19.10.2017 23:59
Details
max. 25 participants
Language: German
Lecturers
Classes
23.10.17
30.10.17
10.10.
17.10.
24.10.
31.10.
7.11.
14.11.
21.11.
28.11.
5.12.
12.12.
Information
Aims, contents and method of the course
Assessment and permitted materials
Teaching Methods
Lectures supported by slide presentation;
Interactive lectures, trainings (using laboratory equipment and software packages);
Team work;
Case studies simulations;
Discussion;
Individual practical presentation (homework) , seminar paper;
e-learning.
Lectures supported by slide presentation;
Interactive lectures, trainings (using laboratory equipment and software packages);
Team work;
Case studies simulations;
Discussion;
Individual practical presentation (homework) , seminar paper;
e-learning.
Minimum requirements and assessment criteria
GRADING (DRAFT)89-100 (1) an excellent -outstanding performance;
76-88 (2) good-generally good, but with some errors;
63-75 (3) satisfactory-generally sound work with a number of substantial errors;
51-62 (4) sufficient -performance meets the minimum criteria;
< 50 (5) failed substantial improvement necessary; requirement of further work.ASSIGMENTS POINTS
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Active participation in class, discussion (5)
Homework assignments (10)
Written proposals, presentations, experimental numerical work (15)
Test 1 (35)
Test 2 (35)
All assignments Total: (100)
76-88 (2) good-generally good, but with some errors;
63-75 (3) satisfactory-generally sound work with a number of substantial errors;
51-62 (4) sufficient -performance meets the minimum criteria;
< 50 (5) failed substantial improvement necessary; requirement of further work.ASSIGMENTS POINTS
----------------------------------------------------------------------------------------------
Active participation in class, discussion (5)
Homework assignments (10)
Written proposals, presentations, experimental numerical work (15)
Test 1 (35)
Test 2 (35)
All assignments Total: (100)
Examination topics
Siehe Inhalte der Vorlesung
Reading list
Microphysics of Clouds and Precipitation Pruppacher and Klett, (1997) (2nd ed.). Springer.
A Short Course in Cloud Physics Rogers and Yau (1998) (3rd ed.), Elsevier Science.
The Physics of Rainclouds Fletcher QC921.5 F55 1962
The Physics of Clouds Mason QC921.5 M3 1971
Elements of Cloud Physics Beyers QC921.5 B9 1965
Microphysical Processes in Clouds Young QC921.5 Y68 1993
Storm and Cloud Dynamics Cotton and Anthes QC921.6 D95 C67 1989
Clouds and Storms Ludlam QC921.5 L83
An Introduction to Meteorology, Spiridonov & Curic (2010), Topics: 6, 9 and 10
Ice Physics Hobbs QC920.H6
Atmospheric Science Wallace and Hobbs QC861.2.W34
Cloud Dynamics Houze QC921.6 D95 H68 1993
A Short Course in Cloud Physics Rogers and Yau (1998) (3rd ed.), Elsevier Science.
The Physics of Rainclouds Fletcher QC921.5 F55 1962
The Physics of Clouds Mason QC921.5 M3 1971
Elements of Cloud Physics Beyers QC921.5 B9 1965
Microphysical Processes in Clouds Young QC921.5 Y68 1993
Storm and Cloud Dynamics Cotton and Anthes QC921.6 D95 C67 1989
Clouds and Storms Ludlam QC921.5 L83
An Introduction to Meteorology, Spiridonov & Curic (2010), Topics: 6, 9 and 10
Ice Physics Hobbs QC920.H6
Atmospheric Science Wallace and Hobbs QC861.2.W34
Cloud Dynamics Houze QC921.6 D95 H68 1993
Association in the course directory
Last modified: Mo 07.09.2020 15:42
the basic concept in Cloud Physics and Precipitation. It shall be done on a systematic way, which will be sufficient for students to understand the main concept of hydrometeorology and to increase the level of understanding and knowledge and of the main nucleation mechanisms responsible for formation of clouds and precipitation. In addition students will also learn about the atmospheric electricity and optical processes and phenomena. The full set of lectures is as follows:
(Thermodynamics –A brief summary)
Hydro meteorology
Precipitation
Hydrometeors
Water balance
Physical aspects of cloud formation
Nucleation
Köhler curve
Atmospheric electricity
Electric field
Thunderstorm electricity
Mechanism of charge separation
Electric phenomena in the atmosphere
Lightning protection
Atmospheric optics
Reflection, refraction, diffraction, diffusion
Optical phenomena in the atmosphere.