Search result: Catalogue data in Spring Semester 2019

Atmospheric and Climate Science Master Information
Electives
The students are free to choose individually from the entire course offer of ETH Zürich and the universities of Zürich and Bern.
Weather Systems and Atmospheric Dynamics
NumberTitleTypeECTSHoursLecturers
701-1236-00LMeasurement Methods in Meteorology and Climate Research Information W1 credit1VM. Hirschi, D. Michel, S. I. Seneviratne
AbstractPhysical, technical, and theoretical basics for measuring physical quantities in the atmosphere. Considerations related to the planning of observation campaigns and to data evaluation.
ObjectiveBecome sensitive for specific problems when making measurements in the atmosphere under severe environmental conditions. Know the different methods and techniques, develop criteria for the choice of the optimal measurement method for a given problem. Find the optimal observation strategy in terms of choice of instrument, frequency of observation, accuracy, etc.
ContentProblems related to time series analysis, sampling theorem, time constant and sampling rate. Theoretical analysis of different sensors for temperature, humidity, wind, and pressure. Discussion of effects disturbing the instruments. Principles of active and passive remote sensing. Measuring turbulent fluxes (e.g. heatflux) using eddy-correlation technique. Discussion of technical realizations of complex observing systems (radiosondes, automatic weather stations, radar, wind profilers). Demonstration of instruments.
Lecture notesStudents can download a copy of the lectures as PDF-files.
Literature- Emeis, Stefan: Measurement Methods in Atmospheric Sciences, In situ and remote. Bornträger 2010, ISBN 978-3-443-01066-9
- Brock, F. V. and S. J. Richardson: Meteorological Measurement Systems, Oxford University Press 2001, ISBN 0-19-513451-6
- Thomas P. DeFelice: An Introduction to Meteorological Instrumentation and Measurement. Prentice-Hall 2000, 229 p., ISBN 0-13-243270-6
- Fritschen, L.J., Gay L.W.: Environmental Instrumentation, 216 p., Springer, New York 1979.
- Lenschow, D.H. (ed.): Probing the Atmospheric Boundary Layer, 269 p., American Meteorological Society, Boston MA 1986.
- Meteorological Office (publ.): Handbook of Meteorological Instruments, 8 vols., Her Majesty's Stationery Office, London 1980.
- Wang, J.Y., Felton, C.M.M.: Instruments for Physical Environmental measurements, 2 vol., 801 p., Kendall/Hunt Publ. Comp., Dubuque Iowa 1975/76.
Prerequisites / NoticeThe lecture focuses on physical atmospheric parameters while lecture 701-0234-00 concentrates on the chemical quantities. The lectures are complementary, together they provide the instrumental basics for the lab course 701-0460-00. Contact hours of the lab course are such that the lectures can be attended (which is recommended).
701-1266-00LWeather Discussion Restricted registration - show details
Limited number of participants.
Preference will be given to students on the masters level in Atmospheric and Climate Science and Environmental Sciences and doctoral students in Environmental Sciences.

Prerequisites: Basic knowledge in meteorology is required for this class, students are advised to take courses 702-0473-00L and/or 701-1221-00L before attending this course.
W2.5 credits2PH. Wernli
AbstractThis three-parts course includes: (i) concise units to update the students knowledge about key aspects of mid-latitude weather systems and numerical weather prediction, (ii) a concrete application of this knowledge to predict and discuss the "weather of the week", and (iii) an in-depth case study analysis, performed in small groups, of a remarkable past weather event.
ObjectiveStudents will learn how to elaborate a weather prediction and to cope with uncertainties of weather (probabilistic) prediction models. They will also learn how to apply theoretical concepts from other lecture courses on atmospheric dynamics to perform a detailed case study of a specific weather event, using state-of-the-art observational and model-derived products and datasets.
701-1280-00LSelf-learning Course on Advanced Topics in Atmospheric and Climate Science Restricted registration - show details
Please contact one of the professors listed under prerequisites/notice if you plan to take this course.

Students are allowed to enroll in both courses 701-1280-00L & 701-1281-00L Self-learning Course on Advanced Topics in Atmospheric and Climate Science but have to choose different supervisors.
W3 credits6ASupervisors
AbstractThis course offers an individual pathway to deepen knowledge and understanding of a specific advanced topic in atmospheric and climate science in one of these fields:
- atmospheric chemistry
- atmospheric circulation and predictability
- atmospheric dynamics
- atmospheric physics
- climate modeling
- climate physics
- land-climate dynamics
ObjectiveThe learning goals of this course are threefold: 1) obtain novel insight into an advanced scientific topic, 2) train the self-study competences in particular related to reading of advanced textbooks and writing a concise summary, and 3) gain experience in the scientific interaction with experts. The format of the course is complementary to other types of teaching (lectures and seminars) and addresses skills that are essential for a wide range of professional activities (including a PhD).
ContentThe course has the following elements:
Week 1: Selection of specific topic and decision about reading material (textbook chapters and maybe 1-2 review papers)
Week 2: General discussion about self-study skills (how to read scientific literature and write summaries; specifics of scientific writing; how to prepare efficient meetings). For the scientific writing, students are encouraged to participate in an online training course offered by Stanford University:
Link
Weeks 6 and 9: Meetings with supervisor to clarify scientific questions
Week 12: Hand-in of written summary (4 pages maximum)
Week 14: Supervisor provides written feedback to the summary document
Week 16: Oral exam about the scientific topic
LiteratureLiterature (including book chapters, scientific publications) will be provided by the responsible supervisor in coordination with the student.
Prerequisites / NoticePrerequisites depend on the chosen field and include successful completion of the listed lecture courses:
• atmospheric dynamics: “Dynamics of large-scale atmospheric flow” (701-1221-00L)
• atmospheric chemistry: “Stratospheric Chemistry” (701-1233-00L) or “Tropospheric Chemistry” (701-1234-00L) or “Aerosols I” (402-0572-00L).
• atmospheric physics: “Atmospheric Physics” (701-0475-00L)
• climate physics: “Klimasysteme” (701-0412-00L) or equivalent
• land-climate dynamics: “Land-climate dynamics” (701-1251-00L)
• climate modeling: “Numerical modeling of weather and climate” (701-1216-00L) (parallel attendance possible)
• atmospheric circulation and predictability: “Dynamics of large-scale atmospheric flow” (701-1221-00L)

If you plan to take this course, please contact one of the professors according to your interest.
• atmospheric chemistry (Prof. T. Peter)
• atmospheric circulation and predictability (Prof. D. Domeisen)
• atmospheric dynamics (Prof. H. Wernli)
• atmospheric physics (Prof. U. Lohmann)
• climate modeling (Prof. C. Schär)
• climate physics (Prof. R. Knutti)
• land-climate dynamics (Prof. S. Seneviratne)
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