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The colloquium is a series of scientific talks by prominent invited speakers assembling interested students and researchers from around Zürich. Students take part of the scientific discussions.

The colloquium is a series of scientific talks by prominent invited speakers assembling interested students and researchers from around Zürich. Students take part of the scientific discussions.

The colloquium is a series of scientific talks by prominent invited speakers assembling interested students and researchers from around Zürich. Students take part of the scientific discussions.

This lecture course is about the fundamental aspects of the dynamics of extratropical weather systems (quasi-geostropic dynamics, potential vorticity, Rossby waves, baroclinic instability). The fundamental concepts are formally introduced, quantitatively applied and illustrated with examples from the real atmosphere. Exercises (quantitative and qualitative) form an essential part of the course.

This course covers the basic physical concepts and mathematical equations used to describe environmental fluid systems on the rotating Earth. Fundamental concepts (e.g. vorticity dynamics and waves) are formally introduced, applied quantitatively and illustrated using examples. Exercises help to deepen knowledge of the material.

The lecture gives an overview over physical properties, flows and transport phenomena in stratified water bodies (reservoirs, lakes and the oceans). The focus is on oceans, their currents and the role of the seas in the global climate system. Students completing the course are able to interpret basic flow equations and apply them to phenomema.

Students are supervised by one of the teachers of the core courses of the system Atmosphere and acquire profound knowledge in a aspired subject, favourably by the study of scientific literature.

This course aims to provide the students with a general introduction of the fundamental concepts of fluid dynamics such as viscous flows, potential flows, instabilities. The course is a combination of lectures, exercises and demo experiments.

New master students are introduced to the atmospheric and climate research field through keynotes given by the programme's professors. In several self-assessment and networking workshops they get to know each other and obtain general information and guidance about the organisation of the MSc programme.

Mesoscale meteorology focusing on processes relevant for the evolution of precipitation systems. Discussion of empirical and mathematical-physical models for, e.g., fronts and convective storms. Consideration of oceanic evaporation, transport and the associated physics of stable water isotopes. Introduction to weather radar being the widespread instrument for observing mesoscale precipitation.

The seminar brings together students in the field of atmosphere and climate. Based on classic and current scientific articles, presentation techniques (presentations, poster presentations) are practised and students get a first insight into research in the field of atmosphere and climate.

This 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.

Satellite observations; analysis of vertical soundings; geostrophic and thermal wind; cyclones at mid-latitude; global circulation; north-atlantic oscillation; atmospheric blocking situtations; Eulerian and Lagrangian perspective; Potential Vorticity; Alpine dynamics (storms, orographic wind); planetary boundary layer; water isotopes