On this page you will find the course programme M.Sc. Meteorology for compulsory and elective modules of the summer semester.

2nd Semester

In the 2nd semester you will take

  • the compulsory modules P3, P4,
  • one module each from the (compulsory) elecetive area General Meteorology, Experimental Meteorology, Theoretical Meteorology and
  • and one module from the (compulsory) elecetive area Physics.
  • You will take the lecture „Advanced Weather Discussions" (2 CHW) and the exercise „Advanced Weather Discussions" (2 CHW).
  • Examinations (duration; weighting) and pre-examination requirements: Oral presentation (45 min; weighting ×1)
  • Pre-examination requirements: Weekly exercises to prepare weather projection for different locations. Points are awarded for the projections. 50% of the total points for the entire semester have to be achieved as prerequisite for admission to the examination.

Moduleresponsibiliy: Prof. Dr. Manfred Wendisch

  • Advanced Weather Discussions – lecture
    lecturers: Prof. Dr. Manfred Wendisch, Thomas Hain
    time: Thu 2:00 – 3:30 p.m.
    room: lecture hall 2, Talstraße 35
  • Advanced Weather Discussions – exercise
    lecturers: Prof. Dr. Manfred Wendisch, Thomas Hain
    time: Thu 1:00 – 2:00 p.m.
    room: lecture hall 2, Talstraße 35
  • You will take the lecture „Dynamics of the Global Climate System" (je 2 CHW) and the exercise „Dynamics of the Global Climate System" (2 CHW).
  • Examinations (duration; weighting) and pre-examination requirements: Oral exam (30 min; weighting ×1)
  • Pre-examination requirements: Weekly exercises with tasks related to the module content. Points are awarded for solutions. 50% of the total points for the entire semester have to be achieved as prerequisite for admission to the exam.

Module responsibility: Prof. Dr. Johannes Quaas

  • Dynamics of the Global Climate System – lecture
    lecturer: Prof. Dr. Johannes Quaas
    time: We 09:15 – 10:45 a.m.
    room: seminar room climate, Vor dem Hospitaltor 1
    start: 06/04/22
    moodle

lecture announcement
PDF 70 KB

4. Fachsemester

The thesis must normally be completed alongside the candidate's degree studies during the fourth semester.

  • The topic of the Master's thesis will be released to the examination candidate by the Examination Board at his/her request at the end of the lecture period in the third semester at the latest.
  • The Master's thesis must be completed within a period of 23 weeks
  • The period in which the Master's thesis must be completed can normally be extended by up to 6 weeks by the Examination Board at the request of the student for reasons for which he/she is not responsible and on the basis of a statement submitted by the student's thesis supervisor. The request must be submitted to the Examination Board no later than one month before the end of the processing period of the thesis.
  • In the 3rd semester of the Master‘s course you attend the seminars in the modules P5 - Meteorological Research (10 LP) and P6 - Meteorological Working Methods (10 LP). Both seminars include an intensive study of study and familiarization with a meteorological research topic.
  • You can combine this research topic, which covers both seminars, with your master thesis. Master's theses, which emerge from the modules P5 and P6 are highlighted in the list of topics.
  • All other master‘s thesis topics can be chosen at your own option.
  • List of topics

Elective area – General Meteorology

Two modules have to be selected from the meteorological elective courses General Meteorology (A1 – A7) in the scope of 10 CP.

  • You will take the lecture „Polar Climate“ (2 CHW) und das Seminar „Polar Climate" (1 CHW).
  • Examinations (duration; weighting) and pre-examination requirements: Oral presentation (45 min; weighting ×1)

Module responsibility: JP Dr. Heike Kalesse-Los

lecture announcement
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  • You will take the lecture „Cloud Physics“ (2 CHW) and theexercise „Cloud Physics" (1 CHW).
  • Examinations (duration; weighting) and pre-examination requirements: Written exam (60 min; weighting ×1)

Modul responsibility: Prof. Dr. Anderas Macke

  • Cloud Physics – lecture
    lecturer: Prof. Dr. Andreas Macke
    time: Mo 1:30 – 3:00 p.m.
    room: seminar room arctic, Prager Straße 35
    start: 11/04/2022
  • Cloud Physics – exercise
    Dozenten: Prof. Dr. Aandreas Macke, Dr. Frank Stratmann
    time: Mo 3:00 – 3:45 p.m.
    room: seminar room arctic, Prager Straße 35
    start: 18/04/2022

lecture announcement
PDF 127 KB

Elective Area – Experimental Meteorology

Two modules have to be selected from the meteorological elective courses Experimental Meteorology (E1 – E5) in the scope of 10 CP.

  • You will take the lecture „Upper Atmosphere“ (2 CHW) and the practical course „Upper Atmosphere" (2 CHW).
  • Examinations (duration; weighting) and pre-examination requirements: Oral presentation (45 min) and written report (4 weeks); weighting ×1

Modul Responsibility: Prof. Dr. Christoph Jacobi

  • Upper Atmosphere – lecture
    lecturer: Prof. Dr. Christoph Jacobi
    time: Tue 07:30 – 09:00 p.m.
    room: seminar room 1, Talstraße 35
    start: 13/04/22

lecture announcement
PDF 775 KB

  • You will take the lecture „Spaceborne Remote Sensing“ (2 CHW) and the excersice „Spaceborne Remote Sensing" (1 CHW).
  • Examinations (duration; weighting) and pre-examination requirements: Written exam (60 min; weighting ×1)

Module responsibility: Prof. Dr. Andreas Macke

  • Ground-based Radar and Microwave Remote Sensing – lecture
    lecturer: Prof. Dr. Andreas Macke
    time: Tue 09:15 –10:45 p.m.
    room: seminar room1, Talstraße 35
    start: 12/04/2022
  • Ground-based Radar and Microwave Remote Sensing – seminar
    lecturers: Prof. Dr. Andreas Macke, Dr. Hartwig Deneke
    time: Tue 11:00 a.m. – 12:30 p.m. (14-daily)
    room: CIP-pool, Talstraße 35
    start 12/04/2022

lecture announcement
PDF 133 KB

Elective Area – Theoretical Meteorology

Two modules have to be selected from the meteorological elective courses Experimental Meteorology (T1 – T6) in the scope of 10 CP.

  • You will take the lecture „Atmospheric Models: Parameterizations and Scales“ (2 CHW) and the praktical course „Atmospheric Models: Parameterizations and Scales" (1 CHW).
  • Examinations (duration; weighting) and pre-examination requirements: Written Exam (60 min; weighting ×1)

Module responsibility: Prof. Dr. Ina Tegen

  • Atmospheric Models: Parameterizations and Scales – lecture
    lecturer: Prof. Dr. Ina Tegen
    time: Fr 09:00 – 10:30 a.m.
    room: TROPOS, Permoserstraße 15
  • Atmospheric Models: Parameterizations and Scales – exercise
    lecturer: Prof. Dr. Ina Tegen
    time: Fr 10:30 a.m. – 1:30 p.m.
    room: TROPOS, Permoserstraße 15
  • You will take the lecture „Radiative Transfer Lab“ (1 CHW) and the pratical course „Radiative Transfer Lab" (2 CHW).
  • Examinations (duration; weighting) and pre-examination requirements: Oral presentation (45 min) and written report (4 weeks); weighting ×1

Module responsibility: Prof. Dr. Thomas Trautmann

  • Scattering and Atmospheric Optics – lecture
    lecturer: Prof. Dr. Thomas Trautmann
    time: Fr 3:00 –4:30 Uhr (14-daily)
    room: seminar rom climate, Vor dem Hospitaltore 1
  • Scattering and Atmospheric Optics – practical course
    lecturer: Prof. Dr. Thomas Trautmann
    time: Fr 4:30 – 7:30 p.m. (14-daily)
    room: seminar rom climate, Vor dem Hospitaltore 1
  • You will take the lecture „Terrestrial Radiative Transfer“ (2 CHW) and the pratical course „Terrestrial Radiative Transfer" (2 CHW).
  • Examinations (duration; weighting) and pre-examination requirements: Written reports for the experiments of the practival course (4 weeks; weighting ×1)

Modul responsibility: Prof. Dr. Manfred Wendisch

  • Terrestrial Radiative Transfer – lecture
    lecturer: Prof. Dr. Manfred Wendisch
    time: Tue 5:00 –6:30 p.m.
    room: lecture hall 2, Talstraße 35
  • Terrestrial Radiative Transfer – practical course
    lecturer: Dr. André Ehrlich
    time: block
    room: lecture hall 2, Talstraße 35
  • You will take the lecture „Data Assimilation“ (2 CHW) and the practical course „Data Assimilation" (1 CHW).
  • Examinations (duration; weighting) and pre-examination requirements: Oral presentation (45 min) and written report for the experiments of the practical course (4 weeks); weighting ×1

Moduel responsibility: Prof. Dr. Johannes Quaas

  • Data Assimilation – lecture
    lecturer: Prof. Dr. Johannes Quaas
    time: We 13:15 –14:45 p.m.
    room: seminar room climate, Vor dem Hospitaltore / CIP-pool, Talstraße 35
    start: 06.04.2022
    Moodle
  • Data Assimilation – practical course
    lecturer: Prof. Dr. Johannes Quaas
    time: We 3:00 – 3:45 p.m.
    room: seminar room climate, Vor dem Hospitaltore / CIP-pool, Talstraße 35
    Moodle

Lecture announcement
PDF 18 KB

Elective area – physics

One module with a capacity of 8 credits must be selected (elective area – physics), either from this list of modules from the German Bachelor's programme Physik:hysik:

  • Experimentalphysik 3 – Optik und Quantenphysik (12-PHY-BPEP3) (Wintersemester),
  • Experimentalphysik 4 – Struktur der Materie (12-PHY-BPEP4),
  • Experimentalphysik 5 – Festkörperphysik (12-PHY-BEP5) (Wintersemester),
  • Theoretische Physik 1 – Theoretische Mechanik“ (12-PHY-BTP1) (Wintersemester),
  • Theoretische Physik 2 – Quantenmechanik“ (12-PHY-BTP2),
  • Theoretische Physik 3 – Statistische Physik“ (12-PHY-BTP3) (Wintersemester),
  • Theoretische Physik 4 – Elektrodynamik & klassische Feldtheorie (12-PHY-BTP4)

or from this list of modules from the English Bachelor’s programme Physik im International Physics Studies Program (IPSP):

  • Experimentalphysik 3 – Elektromagnetische Wellen und Grundlagen der Quantenphysik (12-PHY-BIEP3) (Wintersemester),
  • Theoretische Physik 1 – Klassische Mechanik 1 (12-PHY-BIPTP1)* (Wintersemester),
  • Theoretische Physik 2 – Elektrodynamik 1 (12-PHY-BIPTP2)*,
  • Theoretische Physik 4 – Quantenmechanik“ (12-PHY-BIPTP4),
  • Theoretische Physik 5 – Statistische Physik“ (12-PHY-BIPTP5) (Wintersemester).

*Students who have already completed the module “Mathematische Methoden - Methoden der klassischen Physik” (12-PHY-BMAME1) in the Bachelor's program cannot select the modules “Theoretische Physik 1 - Klassische Mechanik 1” (12-PHY-BIPTP1) and “Theoretische Physik 2 - Elektrodynamik 1” (12-PHY-BIPTP2).

Modules that have already been taken in the Bachelor's programme are excluded.

Modules from the German Bachelor's programme Physik:

  • Die Studierenden besuchen die Vorlesung „Experimentalphysik 4 – Struktur der Materie“ (4 SWS), eine Übung „Experimentalphysik 4 – Struktur der Materie" (2 SWS).
  • Prüfungsleistung: Klausur 180 Min
  • Prüfungsvorleistung: 50% der erreichbaren Bewertungspunkte der Übungsaufgaben

Module responsibility: Prof. Dr. Marius Grundmann

  • Experimentalphysik 4 – Struktur der Materie – Vorlesung
    lecturers: Prof. Dr. Marius Grundmann, Prof. Dr. Johannes Deiglmayr
    time: Mo 09:15 a.m. – 10:45 a.m.
    room: large lecture hall, Linnéstraße 5
    start: 04/04/2022
    language: german
  • Experimentalphysik 4 – Struktur der Materie – Vorlesung
    lecturers: Prof. Dr. Marius Grundmann, Prof. Dr. Johannes Deiglmayr
    time: Thu 09:15 a.m. – 10:45 a.m.
    room: large lecture hall, Linnéstraße 5
    start: 07.04.2022
    language: german
  • Experimentalphysik 4 – Struktur der Materie – Übung
    lecturers: tbd.
    time: tbd.
    room: tbd.
    start: tbd.
  • Moodle
  • Die Studierenden besuchen die Vorlesung „Theoretische Physik 2 – Quantenmechanik" (4 SWS) und das Seminar „Theoretische Physik 2 – Quantenmechanik" (2 SWS).
  • Prüfungsleistung: Klausur 180 Min.
  • Prüfungslvorleistungen: 50% der erreichbaren Bewertungspunkte der Übungsaufgaben

Module responsibility: Prof. Dr. Rainer Verch

  • Theoretische Physik 2 – Quantenmechanik – Vorlesung
    lecturer: Prof. Dr. Rainer Verch
    time: Tue 11:15 a.m. – 01:45 p.m.
    room: Theoretical lecture hall, Linnéstraße 5
    start: 05/04/2022
    language: german
  • Theoretische Physik 2 – Quantenmechanik – Vorlesung
    lecturer: Prof. Dr. Rainer Verch
    time: Thu 11:15 a.m. – 01:45 p.m.
    room: Theoretical lecture hall, Linnéstraße 5
    start: 07/04/2022
    language: german
  • Theoretische Physik 2 – Quantenmechanik  – Übung 1
    lecturer: Dr. Albert Much
    time: Mo 11.15. a.m. – 01.15 p.m.
    room: seminar room 210, Brüderstraße 16
    start: 11/04/2022
    language: german
  • Theoretische Physik 2 – Quantenmechanik  – Übung 2
    lecturer: Dr. Albert Much
    time: We 09.15. a.m. – 10.15 a.m.
    room: seminar room 114, Brüderstraße 16
    start: 13/04/2022
    language: german
  • Die Studierenden besuchen die Vorlesung „Theoretische Physik 4 – Elektrodynamik & klassische Feldtheorie" (4 SWS) und das Seminar „Theoretische Physik 4 – Elektrodynamik & klassische Feldtheorie" (2 SWS).
  • Prüfungsleistung: Klausur 180 Min.
  • Prüfungslvorleistungen: 50% der erreichbaren Bewertungspunkte der Übungsaufgaben

Module responsibility: Prof. Dr. Boris Fine

  • Theoretische Physik 4 – Elektrodynamik & klassische Feldtheorie – Vorlesung
    lecturer: Prof. Dr. Boris Fine
    time: Tue 1:15 p.m. – 2:45 p.m.
    room: seminar room 210, Brüderstraße 16
    language: german
  • Theoretische Physik 4 – Elektrodynamik & klassische Feldtheorie – Vorlesung
    lecturer: Prof. Dr. Boris Fine
    time: Thu 1:15 p.m. – 2:45 p.m.
    Raum: seminar room 210, Brüderstraße 16
    language: german
  • Theoretische Physik 4 – Elektrodynamik & klassische Feldtheorie  – Übung
    lecturer: Prof. Dr. Boris Fine
    time: Thu 11:15 a.m. – 12:45 p.m.
    room: seminar room 210, Brüderstraße 16
    language: german

Modules from the English Bachelor’s programme Physik im International Physics Studies Program (IPSP):

  • You will take take lecture „Theoretische Physik 2 – Electrodynamik 1“ (4 CHW) and the exersice „Theoretische Physik 2 – Electrodynamik 1" (2 CHW)).
  • Pre-examination requirements: Weekly exercises with tasks related to the module content. Points are awarded for solutions. 50% of the total points for the entire semester have to be achieved as prerequisite for admission to the exam.
  • Examinations (duration and pre-examination requirements: Written exam (180 min)

.

Modulverantwortung / module responsibility: PD Dr. A. Kreisel

  • Theoretische Physik 2 – Eletrodynamik / Theoretical Physics 2 – Electrodynamics 1 – Vorlesung/lecture
    lecturer: PD Dr. A. Kreisel
    time: Mo 1.15 p.m. – 2.45 p.m.
    room: Theoretical lecture hall, Linnéstraße 5
  • Theoretische Physik 2 – Eletrodynamik / Theoretical Physics 2 – Electrodynamics 1 – Vorlesung/lecture
    lecturer: PD Dr. A. Kreisel
    time: Thu 1.15 p.m. – 2.45 p.m.
    room: Linnéstraße 5
  • Theoretische Physik 2 – Eletrodynamik / Theoretical Physics 2 – Electrodynamics 1 –  Übung/exercise 1
    lecturer: PD Dr. A. Kreisel
    time: tbd.
    room: tbd.
    start: tbd.
  • Theoretische Physik 2 – Eletrodynamik / Theoretical Physics 2 – Electrodynamics 1 –  Übung/exercise 2
    lecturer: tbd.
    time: tbd.
    room: tbd.
    start: tbd.
  • You will take the lecture „Theoretische Physik 4 – Quantenmechanik“ (4 CHW) and the seminar „Theoretische Physik 4 – Quantenmechanik" (2 CHW).
  • Examinations (duration and pre-examination requirements: Written exam (180 min)
  • Pre-examination requirements: Weekly exercises with tasks related to the module content. Points are awarded for solutions. 50% of the total points for the entire semester have to be achieved as prerequisite for admission to the exam.

Modulverantwortung/ Module responsibility:  Prof. Ph D. Steffen Hollands

  • Theoretische Physik 4 – Quantenmechanik / Theoretical Physics 4 - Quantum Mechanics – Vorlesung/lecture
    lecturer: Prof. Ph.D. Steffen Hollands
    time: Mo 3:15 p.m. – 4:45 p.m.
    room: seminar room 210, Brüderstraße 16
    start: 06/04/2022
  • Theoretische Physik 4 – Quantenmechanik / Theoretical Physics 4 - Quantum Mechanics – Vorlesung/lecture
    lecturer: Prof. Ph.D. Steffen Hollands
    time: Mo 5:15 p.m. – 6:45 p.m.
    room: seminar room 210, Brüderstraße 16
    start: 06/04/2022
  • Theoretische Physik 4 – Quantenmechanik / Theoretical Physics 4 - Quantum Mechanics –  Übung/exercise
    lecturer: Dr. Marc Casals, Prof. Ph.D. Steffen Hollands
    time: tbd.
    room: tbd.
    start: tbd.

Free elective area

We recommend moduls 

  • from the course programme M.Sc. Meteorologie:
    two further modules rom the compulsory elevtive area of the course programme M.Sc. Meteorologie (A1 ... A7; T1 ... T6; E1 ... E5).
  • from the course programme B.Sc. Geographie (only german):
    Grundlagen der Physischen Geographie/Geoökologie I – Gestein, Relief und Boden (12-GGR-B-PG01A) (winter semester),
    Grundlagen der Physischen Geographie/Geoökologie II – Klima, Wasser und Vegetation (12-GGR-B-PG01B) (winter semester),
    Geosystemanalyse, Methoden und Bewertung (12-GGR-B-PG02),
    Grundlagen der Fernerkundung (12-GGR-B-GF04),
    Einführung in die Geoinformatik (12-GGR-B-GF05) (winter semester),
  • from the course programme M.Sc.Geographie (only german):
    Umweltbezogene Geoökologische Standortbewertung (12-GGR-M-PG02) (winter semester),
    Angewandte Spezialgebiete der Geographie (12-GGR-M-PG06) (winter semester),
    Umweltfernerkundung (12-GGR-M-GFP1) (winter semester),
    Geographische Informationssysteme – Modelle und Analysen (12-GGR-M-GFP2),
  • from the area Geowissenschaften (only german):
    Allgemeine Geowissenschaften I (GEOW-01) (winter semester),
    Allgemeine Geowissenschaften II (Geow-02),
    Spezielle Geowissenschaften III (Geow-03).

Further modules of the University Leipzig can be approved by the Examination Board upon request. Please make an appointment with the student advisory service of the institute in advance. 

Geosystemanalyse, Methoden und Bewertung (12-GGR-B-PG02)

Geosystemanalyse, Methoden und Bewertung (12-GGR-B-PG02)

Module responsibility: Prof. Dr. Christoph Zielhofer

  • Geosystemanalyse, Methoden und Bewertung – Vorlesung
    lecturers: Prof. Dr. Christoph Zielhofer, Dr. Hans von Suchodoletz, Prof. Dr. Hannes Feilhauer
    time:  Tue 3:15 p.m. – 14:45 p.m.
    room: lecture hall 01, Talstraße 35
    language: german
  • Datenaufnahme und –auswertung (Gelände) – Wasser und Vegetation
    Übung A

    lecturer: Dr. Hans von Suchodoletz
    Fr 20.05/Sa 21.05., ganztägig, Taucha
    Übung B
    lecturer: Prof. Dr. Hannes Feilhauer
    Fr 20.05/Sa 21.05., ganztägig, Taucha
    Übung C
    lecturer: Prof. Dr. Christoph Zielhofer
    Fr 20.05/Sa 21.05., ganztägig, Taucha
    Übung D
    lecturer: Dr. Pedro Leitao
    Fr 20.05/Sa 21.05., ganztägig, Taucha
  • Datenaufnahme und –auswertung (Gelände) - Boden
    Übung A
    lecturer: Dr. Hans von Suchodoletz
    Fr 06.05., ganztägig, Bodenkartierung Taucha
    Fr 01.07., ganztägig Boden-Exkursion Mitteldeutschland
    Übung B
    lecturer: Dr. Annett Kaldich
    Fr 06.05., ganztägig, Bodenkartierung Taucha
    Fr 01.07., ganztägig Boden-Exkursion Mitteldeutschland
    Übung C
    lecturers: Dr. Annett Kaldich; Cathleen Kertscher
    Fr 06.05., ganztägig, Bodenkartierung Taucha
    Fr 01.07., ganztägig, Boden-Exkursion Mitteldeutschland
    Übung D
    lecturers: N.N., Dr. Hans von Suchodoletz
    Fr 06.05. ganztägig, Bodenkartierung Taucha
    Fr 01.07. ganztägig Boden-Exkursion Mitteldeutschland
  • Datenaufnahme und –auswertung (Labor)
    Übung A
    lecturers: Dr. Birgit Schneider, Dr. Johannes Schmidt
    Di 07.06. 08:00 – 13:00 Uhr, Lab, Johanissallee 19
    Di 07.06. 13:30 – 17:00 Uhr, SR 0.06, Johannisalle 19a
    Übung B
    lecturer: Dr. Birgit Schneider
    Mi 08.06. 08:00 – 13:00 Uhr, Lab, Johanissallee 19
    Mi 08.06. 13:30 – 17:00 Uhr, SR 0.06, Johannisalle 19a
    Übung C
    lecturers: Dr. Birgit Schneider, Dr. Johannes Schmidt
    Do 09.06. 08:00 – 13:00 Uhr, Lab, Johanissallee 19
    Do 09.06. 13:30 – 17:00 Uhr, SR 0.06, Johannisalle 19a
    Übung D
    lecturers: Dr. Birgit Schneider
    Fr 10.06. 08:00 – 13:00 Uhr, Lab, Johanissallee 19
    Fr 10.06. 13:30 – 17:00 Uhr, SR 0.06, Johannisalle 19a

Grundlagen der Fernerkundung (12-GGR-B-GF04)

Module responsibility: Prof. Dr. Michael Vohland

  • Grundlagen der Fernerkundung – Techniken und Verfahren der fernerkundlichen Erdbeobachtung – Vorlesung
    lecturer: Prof. Dr. Michael Vohland
    time: Tue11:15 – 12:45 a.m.
    room: lecture hall 01, Talstraße 35
    language: german
  • Auswertung von Fernerkundungsdaten – Übung A
    lecturer: Prof. Dr. Michael Vohland
    time: Tue 1:15 – 12:45 p.m.
    room: CP III,  Talstraße 35
    language: german
  • Auswertung von Fernerkundungsdaten – Übung B
    lecturer: Prof. Dr. Michael Vohland
    time: Tue 1:15 – 2:45 p.m.
    room: CP III,  Talstraße 35
    language: german
  • Auswertung von Fernerkundungsdaten – Übung C
    lecturer: Prof. Dr. Michael Vohland
    time: We 3:15 – 4:45 p.m.
    room: CP III,  Talstraße 35
    language: german
  • Es gelten die für den Studiengang gültigen Studiendokumente des Studienganges B.Sc. Geographie.
  • In die Module des Wahlbereiches Geographie schreiben Sie sich per E-Mail von Ihrer Uni-E-Mail-Adresse aus im oben angegebenen Zeitraum ein. Folgende Angaben sind dafür notwendig: Name, Vorname, Matrikelnummer und Studiengang.

Geographische Informationssysteme – Modelle und Analysen (12-GGR-M-GFP2)

Geographische Informationssysteme – Modelle und Analysen (12-GGR-M-GFP2)

Module responsibility: Prof. Dr. Miguel Mahecha  

  • Geoinformationssysteme – Modelle und Analysen – Vorlesung
    lecturers: Prof. Dr. Miguel Mahecha, Guido Kraemer
    time: Thu 09:15 – 10:15 a.m.
    room: CP III, Talstraße 35
    language: german
  • Geoinformationssysteme – Modelle und Analysen – Seminar
    lecturers: Prof. Dr. Miguel Mahecha, Guido Kraemer
    time: Thu 10:45 – 11:45 a.m.
    room: CP III, Talstraße 35
    language: german
  • In den Übungen Geologische Arbeitsmethoden werden die Grundlagen zur selbstständigen geologischen Geländearbeit vermittelt sowie die Grundlagen der wissenschaftlichen Darstellung der erfassten Daten. Das im Kurs Erlernte wird in Form von Aufgaben geübt. In den Geologischen Gelände-Übungen (3 Tage) werden unter Anleitung Geländebefunde erfasst und in einen regionalgeologischen Rahmen gestellt. Die Dokumentation und Bewertung von Geländebefunden werden mit Berichten geübt.
  • In die Module des Wahlbereiches Geowissenschaften schreiben Sie sich per E-Mail von Ihrer Uni-E-Mail-Adresse aus im oben angegebenen Zeitraum ein. Folgende Angaben sind dafür notwendig: Name, Vorname, Matrikelnummer und Studiengang.

All Semester

  • In addition to the compulsory and elective modules, we offer you further courses to consolidate and deepen our study content.
  • The Leipziger Meteorologische Kolloquium und the PhD Talks are common series of meetings of the Leipzig Institute for Meteorology and the Institute of für Tropospheric research.
  • We recommend the attendance at this events/lecures.

To consolidate and deepen the subject matter, we offer the seminar "Visualisation and Data Analysis".

lecturer: Nelly Promnitz
time: Thu 2:00 – 3:30 p.m.
room: seminar room Climate, Vor dem Hospitaltore 1

To consolidate and deepen the subject matter, we offer the seminar "Atmospheric chemistry".

lecturer: Prof. Dr. Hartmut Herrmann
time: We 1:00 – 2:00 p.m. (14-daily)
room: TROPOS, Permoserstraße

To consolidate and deepen the subject matter, we offer the seminar "Meteorological Seminar".

lecturer: lecturers of the insitute
time: We 3:00 – 4:00 p.m. (14-daily)
room: seminar room arctic, Prager Straße 34

time: Thu 4.00 p.m – 6.00 p.m.
location: Leipzig Institute for Meteorology or Institute for Tropospheric Research (TROPOS)
Veranstaltungsplan

time: Tue 11.30 a.m. – 12.30 p.m., 11.30 a.m. – 12.30 p.m
location: Institute for Tropospheric Research (TROPOS)
Veranstaltungsplan

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