Lecture - General Theory of Relativity and Cosmology

Home Information Bibliography Videos Instructors Ανακοινώσεις Helios

Home Information Bibliography Videos Instructors Ανακοινώσεις Helios

Lectures

Lecture 10

Topics

Schwarzschild solution: the geometry for \( r < r_s \)
The horizon at \( r = 2M \)
Radial null lines and light cone structure
Radial fall of an observer in the black hole: relative accelerations
Stationary observer
Eddington-Finkelstein coordinates
Kruskal-Szekeres coordinates
Extended Kruskal diagram
Penrose diagram of the Schwarzschild spacetime

Bibliography

Lecture slides (1st lecture)
Lecture slides (2nd lecture)

Practicing

Problem set 1 and their solutions.
Problem set 2.
Radial null geodesics + light cone structure: Schwarzschild coordinates (Mathematica notebook, PDF)
Radial null geodesics + light cone structure: Eddington-Finkelstein coordinates (Mathematica notebook, PDF)
Eddington-Finkelstein coordinates: affine connection and curvature tensors (Mathematica notebook 1, Mathematica notebook 2, PDF 1, PDF 2)
Kruskal-Szekeres coordinates: affine connection and curvature tensors (Mathematica notebook, PDF)