Chapter
The Symmetry in Physics and its Relation to Collabials
1:42:13 - 1:48:21 (06:08)
This podcast discusses the symmetry in physics and its relation to collabials, exploring whether every field theory can be coupled to gravity in a quantum mechanical way. They also explore using physics to define new mathematics, and the physical intuition that could teach us about it.
Clips
This podcast episode discusses the usage of physics to define new mathematics, focusing on physical intuition and invariant concepts to gain a bigger perspective.
1:42:13 - 1:44:27 (02:14)
Summary
This podcast episode discusses the usage of physics to define new mathematics, focusing on physical intuition and invariant concepts to gain a bigger perspective.
ChapterThe Symmetry in Physics and its Relation to Collabials
Episode#204 – Cumrun Vafa: String Theory
PodcastLex Fridman Podcast
The speaker and colleagues observed a symmetry in physics for different collabials suggesting that the Euler characteristic of a collabia cannot be computed, despite mathematical evidence and expert opinions.
1:44:27 - 1:46:23 (01:55)
Summary
The speaker and colleagues observed a symmetry in physics for different collabials suggesting that the Euler characteristic of a collabia cannot be computed, despite mathematical evidence and expert opinions. They noticed that string moves in a collabia cannot distinguish the Euler characteristic.
ChapterThe Symmetry in Physics and its Relation to Collabials
Episode#204 – Cumrun Vafa: String Theory
PodcastLex Fridman Podcast
The vastness of quantum field theories poses a question of whether or not they can all be coupled to gravity through quantum mechanics.
1:46:23 - 1:48:21 (01:58)
Summary
The vastness of quantum field theories poses a question of whether or not they can all be coupled to gravity through quantum mechanics. While there are some exceptional cases where they can, the natural conclusion is that they cannot be reconciled.