142.089 Atomic, Nuclear and Particle Physics I
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2019S, UE, 1.0h, 1.0EC

Properties

  • Semester hours: 1.0
  • Credits: 1.0
  • Type: UE Exercise

Aim of course

After successful completion of the course, students are able to apply quantum theory, electrodynamics and relativity on problems of atomic, nuclear and particle physics. After successful completion of the course, students are able to formulate basic concepts of atomic and nuclear physics.

Subject of course

One-electron atom: fine structure, hyperfine structure, interaction with electromagnetic radiation; two-electron atoms; many-electron atoms; basic nuclear properties; nuclear models

Lecturers

Institute

Course dates

DayTimeDateLocationDescription
Thu12:00 - 14:0021.03.2019Sem.R. DB gelb 05 A Übung
Thu12:00 - 14:0021.03.2019Sem.R. DB gelb 07 Übung
Thu12:00 - 14:0004.04.2019 - 27.06.2019Sem.R. DB gelb 05 A Übung
Thu12:00 - 14:0004.04.2019 - 27.06.2019Sem.R. DB gelb 07 Übung
Atomic, Nuclear and Particle Physics I - Single appointments
DayDateTimeLocationDescription
Thu21.03.201912:00 - 14:00Sem.R. DB gelb 05 A Übung
Thu21.03.201912:00 - 14:00Sem.R. DB gelb 07 Übung
Thu04.04.201912:00 - 14:00Sem.R. DB gelb 05 A Übung
Thu04.04.201912:00 - 14:00Sem.R. DB gelb 07 Übung
Thu02.05.201912:00 - 14:00Sem.R. DB gelb 05 A Übung
Thu02.05.201912:00 - 14:00Sem.R. DB gelb 07 Übung
Thu16.05.201912:00 - 14:00Sem.R. DB gelb 05 A Übung
Thu16.05.201912:00 - 14:00Sem.R. DB gelb 07 Übung
Thu06.06.201912:00 - 14:00Sem.R. DB gelb 05 A Übung
Thu06.06.201912:00 - 14:00Sem.R. DB gelb 07 Übung
Thu13.06.201912:00 - 14:00Sem.R. DB gelb 05 A Übung
Thu13.06.201912:00 - 14:00Sem.R. DB gelb 07 Übung
Thu27.06.201912:00 - 14:00Sem.R. DB gelb 05 A Übung
Thu27.06.201912:00 - 14:00Sem.R. DB gelb 07 Übung

Examination modalities

exam

Course registration

Begin End Deregistration end
04.03.2019 12:00 01.04.2019 23:59

Curricula

Literature

No lecture notes are available.

Previous knowledge

Basic knowledge on electrodynamics and quantum theory is required. 

Accompanying courses

Language

German