The Maths of General Relativity (7/8) - The Einstein equation
In this series, we build together the theory of general relativity. This seventh video focuses on the Einstein equation, the key ingredient of the theory which allows us to relate our mathematical model to the physical world.
For more videos, subscribe to the YouTube channel : https://www.youtube.com/ScienceClicEN
And if you liked this video, you can share it on social networks !
To support me on Patreon : http://www.patreon.com/ScienceClic
or on Tipeee : http://tipeee.com/ScienceClic
Facebook Page : http://facebook.com/ScienceClic
Twitter : http://twitter.com/ScienceClic
Instagram : http://instagram.com/ScienceClic
Alessandro Roussel,
For more info: http://www.alessandroroussel.com/en
Видео The Maths of General Relativity (7/8) - The Einstein equation канала ScienceClic English
For more videos, subscribe to the YouTube channel : https://www.youtube.com/ScienceClicEN
And if you liked this video, you can share it on social networks !
To support me on Patreon : http://www.patreon.com/ScienceClic
or on Tipeee : http://tipeee.com/ScienceClic
Facebook Page : http://facebook.com/ScienceClic
Twitter : http://twitter.com/ScienceClic
Instagram : http://instagram.com/ScienceClic
Alessandro Roussel,
For more info: http://www.alessandroroussel.com/en
Видео The Maths of General Relativity (7/8) - The Einstein equation канала ScienceClic English
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
Spacetime rotations, understanding Lorentz transformationsSPACETIME | 4K Short filmWhat would we see at the speed of light?The origin of Electromagnetic waves, and why they behave as they doThe Electromagnetic field, how Electric and Magnetic forces ariseSupercritical fluids, a state between Liquid and GasSupersymmetry, explained visuallyGeodesics and RelativityHow to create absolute silence? Anechoic roomsSaturn in Realistic VFX | Immersive journeyWhy Time and Space swap in a Black HoleEntropy and the Arrow of TimeFalling into a realistic Black Hole (VR 360°)What would we see if we fell into a Black Hole?Black holes are Bubbles of light #VeritasiumContestThe Coriolis forceString TheoryHawking radiationPulsars and Neutron StarsVisualizing Time DilationQuantum Electrodynamics and Feynman Diagrams