Relativity 108b: Schwarzschild Metric - Interpretation (Gravitational Time Dilation, Event Horizon)
Relativity 108e: Schwarzschild Metric - Gravitational Redshift / Blueshift (via covector fields)
Relativity 108d: Schwazrschild Metric - Eddington-Finkelstein, Kruskal-Szekeres, White/Wormholes
The Schwarzschild metric, static space-time [1]
General Relativity II: Geodesics in Schwarzschild, frequency redshift
Relativity 106a: Tensors - Frequency Wave Covectors and Doppler Shift (with accelerating frames)
Relativity 110b: Cosmology - FLRW Metric Derivation (3 possible geometries)
Relativity 110d: Cosmology - FLRW Geodesics, Cosmological Redshift, Horizons, Comoving Coordinates
Relativity Lecture 4: Gravitational redshift again, Field theory for gravity, Manifolds
Relativity 105d: Acceleration - Twin Paradox and Proper Time Along Curves (Rindler Metric)
Bending of light in the gravitational field (schwarzschild metric) GTR #gtr #physics #gravity
Relativity Tested with Supermassive Black Hole!
15. Energy, Momentum, and Gravitational Redshift (General Relativity)
Gravitational Redshift near a Schwarzschild Black Hole
Lecture 17: Schwartzschild solution: trajectories
Eddington-Finkelstein Coordinate System for beginners!
Relativity 109c: Gravitational Waves - Wave Derivation (The Lorenz Gauge)
What Does the Metric Tensor Do? | Tensor Intuition
9.0. Classical Tests of General Relativity. 9.1. Gravitational redshift. Claus Kiefer
Relativity 109d: Gravitational Waves - Transverse-Traceless Gauge (Plus and Cross Polarizations)
![The Schwarzschild metric, static space-time [1]](https://img.youtube.com/vi/ZNzHmX1FX6E/0.jpg)
