26.06 Teacher Training Programme: Physics
260016 VO Introduction to Physics II
267123 SE Introduction to Physics Education
260048 VO Physics of matter I
260011 UE Solid State Physics II - Exercises
260029 VO Solid State Physics II
260278 VO Introduction to Physics IV
260161 VO Introduction to Environmental Science
260072 VO Computational Physics II - Simulation
260307 UE Computational Physics II Problem Class
260026 PR Laboratory Nuclear and Isotope Physics - 14C dating with Accelerator Mass Spectrometry - for teacher students
260059 PR Practical Course - Light matter interaction - Computational physics, quantum optics and holography for teacher candidates
260181 PR Project Laboratory Course - SOLARbrunn- heading for a future with the sun - Designing and testing assignments based on the findings of the project SOLARbrunn
260211 PR Laboratory Quantum Optics
260291 PR Laboratory Aerosolphysics
260075 SE From phnomenon to the scientific perspective - Science teaching in the sense of Martin Wagenschein
260120 SE Modern physics in school
260181 PR Project Laboratory Course - SOLARbrunn- heading for a future with the sun - Designing and testing assignments based on the findings of the project SOLARbrunn
267124 SE Physics Education in Optics
267125 SE Physics Education in Electricity
260038 VO How to analyse and document experimental data - The handling of uncertainties in measurement from planning the experiment up to publicating analysed data
260052 SE Competence in Conflicts
260075 SE From phnomenon to the scientific perspective - Science teaching in the sense of Martin Wagenschein
260120 SE Modern physics in school
260181 PR Project Laboratory Course - SOLARbrunn- heading for a future with the sun - Designing and testing assignments based on the findings of the project SOLARbrunn
260279 SE Scientific publishing and presentation
267123 SE Introduction to Physics Education
267124 SE Physics Education in Optics
442610 SE Summerschool on Methods in Educational Research - Summerschool on Methods in Educational Research
Last modified: Tu 12.06.2018 13:33
Die Angabe von ECTS-Punkten legt den vorgesehenen Arbeitsaufwand offen: Jeder ECTS-Punkt bedeutet eine gesamte Arbeitsbelastung von 25-30 Stunden (zu je 60 Minuten) durch alle zum Absolvieren der Lehrveranstaltung erforderlichen Tätigkeiten wie Vorbereitung, Literatursuche, Anwesenheit, Wiederholungen und Prüfungsvorbereitung.Ersetzung von Lehrveranstaltungen der Fachdidaktik und freie Wahlfächer:
http://ssc-physik.univie.ac.at/fileadmin/user_upload/SSC/ssc_physik/Formulare/UF_Physik/ErsetzungenLA-3.pdf