Matthias Münnich: Catalogue data in Autumn Semester 2016 |
Name | Dr. Matthias Münnich |
Name variants | Matthias Muennich |
Address | I. f. Biogeochemie/Schadstoffdyn. ETH Zürich, CHN E 26.2 Universitätstrasse 16 8092 Zürich SWITZERLAND |
Telephone | +41 44 632 84 50 |
munnich@env.ethz.ch | |
URL | http://uppeople.ethz.ch/munnich |
Department | Environmental Systems Science |
Relationship | Lecturer |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
402-0000-02L | Laboratory Course in Physics for Students in Food Sciences ![]() | 2 credits | 4P | A. Biland, M. Doebeli, M. Münnich | |
Abstract | The central aim is to provide an individual experience of the physical phenomena and the basic principles of the experiment. By conducting simple physical experiments the student will learn how to properly use physical instruments and how to evaluate the results correctly. | ||||
Learning objective | This laboratory course aims to provide basic knowledge of - the setup of a physics experiment, - the use of measurement instruments, - various measuring techniques, - the analysis or measurement errors, - and the interpretation of the measured quantities. | ||||
Content | Fehlerrechnung, 9 ausgewählte Versuche zu folgenden Themen: Transversalschwingung einer Saite, Mechanische Resonanz, Innere Reibung in Flüssigkeiten, Absoluter Nullpunkt der Temperaturskala, Universelle Gaskonstante, Spezifische Verdampfungswärme, Spezifische Wärme, Interferenz und Beugung, Drehung der Polarisationsebene, Spektrale Absorption, Energieverteilung im Spektrum, Spektroskopie, Leitfähigkeit eines Elektrolyten, Elektrische Leitfähigkeit und Wärmeleitfähigkeit, Radioaktivität, Radioaktive Innenluft, Dichte und Leitfähigkeit, Fluss durch ein poröses Medium, Lärm. Die Auswahl der Versuche kann zwischen den verschiedenen Studiengängen variieren. | ||||
Lecture notes | Anleitungen zum Physikalischen Praktikum | ||||
402-0000-03L | Laboratory Course in Physics for Students in Earth Sciences ![]() | 2 credits | 4P | A. Biland, M. Doebeli, M. Münnich | |
Abstract | The central aim is to provide an individual experience of the physical phenomena and the basic principles of the experiment. By conducting simple physical experiments the student will learn how to properly use physical instruments and how to evaluate the results correctly. | ||||
Learning objective | This laboratory course aims to provide basic knowledge of - the setup of a physics experiment, - the use of measurement instruments, - various measuring techniques, - the analysis or measurement errors, - and the interpretation of the measured quantities. | ||||
Content | Fehlerrechnung, 9 ausgewählte Versuche zu folgenden Themen: Transversalschwingung einer Saite, Mechanische Resonanz, Innere Reibung in Flüssigkeiten, Absoluter Nullpunkt der Temperaturskala, Universelle Gaskonstante, Spezifische Verdampfungswärme, Spezifische Wärme, Interferenz und Beugung, Drehung der Polarisationsebene, Spektrale Absorption, Energieverteilung im Spektrum, Spektroskopie, Leitfähigkeit eines Elektrolyten, Elektrische Leitfähigkeit und Wärmeleitfähigkeit, Radioaktivität, Radioaktive Innenluft, Dichte und Leitfähigkeit, Fluss durch ein poröses Medium, Lärm. Die Auswahl der Versuche kann zwischen den verschiedenen Studiengängen variieren. | ||||
Lecture notes | Anleitungen zum Physikalischen Praktikum | ||||
701-0033-00L | Laboratory Course in Physics for Students of Environmental Sciences ![]() | 2 credits | 4P | M. Münnich, A. Biland, N. Gruber | |
Abstract | The course provides an individual experience of physical phenomena and the basic principles of experiments. By carrying out simple physical experiments the students learn the proper use measuring instruments, the correct evaluation of report of the measured data and how to interpret the final results. | ||||
Learning objective | This laboratory course aims to provide basic knowledge of - the setup of a physics experiment, - the use of measurement instruments, - various measuring techniques, - the analysis or measurement errors, - and the interpretations of the measured quantities. | ||||
Content | The students select 8 out of 20 experiments which they like to conduct. For each of these experiments the students will analyze the data they measure estimate the error of there measurements and compare these with the physical theory. Additionally each student will present one of their experiments in a seminar. | ||||
Lecture notes | Manuals for the experiments are provided online. |