Franziska Scholder-Aemisegger: Catalogue data in Autumn Semester 2018

Name Dr. Franziska Scholder-Aemisegger
E-mailfranziska.aemisegger@env.ethz.ch
URLhttp://iacweb.ethz.ch/staff/aemisegf/index.html
DepartmentEnvironmental Systems Science
RelationshipLecturer

NumberTitleECTSHoursLecturers
701-0473-AALWeather Systems Information
Enrolment ONLY for MSc students with a decree declaring this course unit as an additional admission requirement.

Any other students (e.g. incoming exchange students, doctoral students) CANNOT enrol for this course unit.
3 credits6RM. A. Sprenger, F. Scholder-Aemisegger
AbstractSatellite 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
ObjectiveIntroduction to basic aspects of atmospheric dynamics. Focus is given to the global-scale atmospheric circulation, synoptic-scale processes (in particular low-pressure systems), and the influence of mountains on the atmospheric flow.
ContentSatellite 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
Lecture notesLecture notes and slides
LiteratureAtmospheric Science, An Introductory Survey
John M. Wallace and Peter V. Hobbs, Academic Press
701-0473-00LWeather Systems Information 3 credits2GM. A. Sprenger, F. Scholder-Aemisegger
AbstractSatellite 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
ObjectiveThe students are able to
- explain up-to-date meteorological observation techniques and the basic methods of theoretical atmospheric dynamics
- to discuss the mathematical basis of atmospheric dynamics, based on selected atmospheric flow phenomena
- to explain the basic dynamics of the global circulation and of synoptic- and meso-scale flow features
- to explain how mountains influence the atmospheric flow on different scales
ContentSatellite 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
Lecture notesLecture notes and slides
LiteratureAtmospheric Science, An Introductory Survey
John M. Wallace and Peter V. Hobbs, Academic Press