Lehrinhalte
1) Gravitation and Special Relativity
2) Mathematical structure of Pseudo-Riemannian spaces
3) Fundamental physical laws of General Relativity
4) Isotropic solutions of Einstein's field equaltions and Black Holes
5) Cosmological models
Literature
J. B. Hartle, Gravity: An Introduction to Einstein's General Relativity (Pearson, 2013)
B. Schutz, A first course in General Relativity (Cambridge UP, Cambridge, 2012)
S.M. Caroll, Spacetime and Geometry (Cambridge UP, Cambridge, 2019)
R.M. Wald, General Realtivity (Chicago UP, Chicago, 1984)
Voraussetzungen
Classical Mechanics and Electrodynamics, Quantum Mechanics
Erwartete Teilnehmerzahl
25
Online-Angebote
moodle
1) Gravitation and Special Relativity
2) Mathematical structure of Pseudo-Riemannian spaces
3) Fundamental physical laws of General Relativity
4) Isotropic solutions of Einstein's field equaltions and Black Holes
5) Cosmological models
Literature
J. B. Hartle, Gravity: An Introduction to Einstein's General Relativity (Pearson, 2013)
B. Schutz, A first course in General Relativity (Cambridge UP, Cambridge, 2012)
S.M. Caroll, Spacetime and Geometry (Cambridge UP, Cambridge, 2019)
R.M. Wald, General Realtivity (Chicago UP, Chicago, 1984)
Voraussetzungen
Classical Mechanics and Electrodynamics, Quantum Mechanics
Erwartete Teilnehmerzahl
25
Online-Angebote
moodle
- Lehrende: Gernot Alber
- Lehrende: Gabriel Martinez
Semester: Inverno 2021/22