Search result: Catalogue data in Autumn Semester 2020

Earth and Climate Sciences Bachelor Information
Basic Courses II
Examination Block 1
NumberTitleTypeECTSHoursLecturers
402-0063-00LPhysics IIO5 credits3V + 1UA. Vaterlaus
AbstractIntroduction to the concepts and tools in Physics, with the help of demonstration experiments. The Chapters treated are Electromagnetism, Refraction and Diffraction of Waves, Elements of Quantum Mechanics with applications to Spectroscopy, Thermodynamics, Phase Transitions, Transport Phenomena. Whenever possible, examples relevant to the students' main field of study are given.
Learning objectiveIntroduction to the scientific methodology. The student should develop his/her capability to turn physical observations into mathematical models, and to solve them.
Lecture notesA script will be distributed
LiteratureFriedhelm Kuypers
Physik für Ingenieure und Naturwissenschaftler
Band 2 Elektrizität, Optik, Wellen
Wiley-VCH, 2012
ISBN 3527411445, 9783527411443

Douglas C. Giancoli
Physik
3. erweiterte Auflage
Pearson Studium

Hans J. Paus
Physik in Experimenten und Beispielen
Carl Hanser Verlag, München, 2002, 1068 S.

Paul A. Tipler
Physik
Spektrum Akademischer Verlag, 1998, 1522 S., ca Fr. 120.-

David Halliday Robert Resnick Jearl Walker
Physik
Wiley-VCH, 2003, 1388 S., Fr. 87.- (bis 31.12.03)

dazu gratis Online Ressourcen (z.B. Simulationen): www.halliday.de
651-3400-00LGeochemistry I
The course replaces 651-3400-00 Geochemie. Students who completed 651-3400-00 Geochemie are not eligible to Geochemie I.
O4 credits3GM. Schönbächler, D. Vance
AbstractIntroduction to geochemistry and its application to the study of the origin and evolution of the Earth and planets.
Learning objectiveGain an overview of geochemical methods used in various fields of Earth Sciences and how they can be applied to study geological processes in the Earth’s mantle, crust, oceans and atmosphere.
ContentThis course is an introduction into geochemistry with a special focus on the basic concepts used in this rapidly evolving field. The course deals with the geochemist's toolbox: the basic chemical and nuclear properties of elements from the periodic table and how these elements can be used to ask fundamental questions in Earth Sciences. The important concepts used in solid-solution-gas equilibria are introduced. The concepts of chemical reservoirs and geochemical cycles are discussed with examples from the carbon cycle in the Earth. The course also addresses geological applications in low- and high-temperature geochemistry, including the formation of continents, the differentiation of the Earth, the geochemistry of ocean and continental waters.
Lecture notesThe slides are available online.
LiteratureH. Y. McSween et al.: Geochemistry - Pathways and Processes,
2nd ed. Columbia Univ. Press (2003)

William White: Geochemistry, Wiley-Blackwell Chichester (2013)
Prerequisites / NoticePrerequisite: chemical thermodynamics, basic inorganic chemistry and physics.
701-0023-00LAtmosphere Information O3 credits2VE. Fischer, T. Peter
AbstractBasic principles of the atmosphere, physical structure and chemical composition, trace gases, atmospheric cycles, circulation, stability, radiation, condensation, clouds, oxidation capacity and ozone layer.
Learning objectiveUnderstanding of basic physical and chemical processes in the atmosphere. Understanding of mechanisms of and interactions between: weather - climate, atmosphere - ocean - continents, troposhere - stratosphere. Understanding of environmentally relevant structures and processes on vastly differing scales. Basis for the modelling of complex interrelations in the atmospehre.
ContentBasic principles of the atmosphere, physical structure and chemical composition, trace gases, atmospheric cycles, circulation, stability, radiation, condensation, clouds, oxidation capacity and ozone layer.
Lecture notesWritten information will be supplied.
Literature- John H. Seinfeld and Spyros N. Pandis, Atmospheric Chemistry and Physics: From Air Pollution to Climate Change, Wiley, New York, 1998.
- Gösta H. Liljequist, Allgemeine Meteorologie, Vieweg, Braunschweig, 1974.
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