260029 PR Physics laboratory I (2010W)
for beginners
Continuous assessment of course work
Labels
Insgesamt vier Kurse:
Kurs 1: Dienstag 13:00-18:15
Kurs 2: Mittwoch 13:00-18:15
Kurs 3: Donnerstag 13:00-18:15
Kurs 4: Freitag 8:30-13:45Ort: Räume des Anfängerpraktikums
Zugang: 1090, Boltzmanngasse 3, Rechter Hof, durch großes Holztor (Planskizze auf unserer Homepage).Online-Voranmeldung von 1.10.2010 bis 7.10.2010 (12:00) auf unserer Homepage http://www.univie.ac.at/anfpraBei der Online-Voranmeldung erfolgt die Einteilung der Kurse.Anfragen an: praktikum.physik@univie.ac.atVorbesprechung und persönliche Anmeldung: Fr 8.10.2010, 11:00, Christian-Doppler-HS im 3. Stock, Strudlhofgasse 4, 1090 Wien.Online-Voranmeldung und persönliche Anmeldung sind verpflichtend!
Kurs 1: Dienstag 13:00-18:15
Kurs 2: Mittwoch 13:00-18:15
Kurs 3: Donnerstag 13:00-18:15
Kurs 4: Freitag 8:30-13:45Ort: Räume des Anfängerpraktikums
Zugang: 1090, Boltzmanngasse 3, Rechter Hof, durch großes Holztor (Planskizze auf unserer Homepage).Online-Voranmeldung von 1.10.2010 bis 7.10.2010 (12:00) auf unserer Homepage http://www.univie.ac.at/anfpraBei der Online-Voranmeldung erfolgt die Einteilung der Kurse.Anfragen an: praktikum.physik@univie.ac.atVorbesprechung und persönliche Anmeldung: Fr 8.10.2010, 11:00, Christian-Doppler-HS im 3. Stock, Strudlhofgasse 4, 1090 Wien.Online-Voranmeldung und persönliche Anmeldung sind verpflichtend!
Details
max. 88 participants
Language: German
Lecturers
- Wilhelm Anton Markovitsch
- Jelena Horky
- Johanna-Masume Lehner
- Herwig Peterlik
- Alfred Philipp
- Wolfgang Pichl
- Stephan Puchegger
- Franz Sachslehner
- Erhard Schafler
- Bogdan Sepiol
- Daria Setman
- Thomas Waitz
Classes
Currently no class schedule is known.
Information
Aims, contents and method of the course
Performance of basic physical experiments in mechanics, thermodynamics, electricity and magnetism, optics and atomic physics, including an introduction and application of error analysis.
Assessment and permitted materials
Marks are given for the preparational work, the performance of the experimental work, and the qualitiy of the written reports.
Minimum requirements and assessment criteria
1. Application of basic knowledge in physics to simple experimental problems.
2. Improved understanding of physical concepts by performing experiments.
3. Acquire new knowledge in physics and apply it to new problems.
4. Learn to handle simple measurement devices and tools.
5. Learn to write a protocol of the experimental results.
6. Learn to estimate the accuracy of measurements.
7. Become acquainted with computer-based data acquisition and evaluation.
8. Training in teamwork. Learn to work in small groups.
2. Improved understanding of physical concepts by performing experiments.
3. Acquire new knowledge in physics and apply it to new problems.
4. Learn to handle simple measurement devices and tools.
5. Learn to write a protocol of the experimental results.
6. Learn to estimate the accuracy of measurements.
7. Become acquainted with computer-based data acquisition and evaluation.
8. Training in teamwork. Learn to work in small groups.
Examination topics
Work is divided in eLearning-phases and practical work in the labs (blended learning concept). The preparation for the experiments takes place in an eLearning environment. The practical work is done in 12 units during the semester. At the end of each work unit a written documentation of the experiments has to be handed to the teachers.
Reading list
Association in the course directory
PD215
Last modified: Sa 26.02.2022 00:25