Beskjeder
8.11 The Schwarzschild-de Sitter metric
8.7 Perihelion precession and the cosmological constant
9.5 The lifetime of a black hole
8.12 Proper radial distance in the Schwarzschild metric
8.13 Gravitational redshift in Schwarzschild spacetime
9.1 Spaceship falling into a black hole
8.2 The curvature scalar of a surface of simultaneity
Problem 3 covariant derivative http://www.uio.no/studier/emner/matnat/fys/FYS4160/v13/oblig1.1.pdf
7.1 Lorentz transformation of perfect fluid
7.2 Geodesic equation and constants of motion
5.6 Geodetic curves in space
6.2 A non-Cartesian coordinate system in two dimensions
We have been through the following exercises so far:
1.1 Tidal pendulum
1.2 Inside gravity of spherical mass
1.3 Earth-Moon system and Lagrange points
1.4 The Roche-limit
2.1 Twin paradox
2.2 Faster than light?
2.8 Doppler effect
2.13 Cerenkov radiation
3.1 One-forms
3.2 Tensor products
3.7 Wedge products
3.8 Two-dimensional coordinate transformations
4.1 Rotating disk
4.2 Free particle in accelerated reference frame
4.3 Uniformly accelerated system of reference
5.1 Spatial geodesics on rotating disk