Chapter

The Connection Between Quantum Chromodynamics and Relativity
The story that emerges from QCD is similar to the way clouds of electrons form atoms and molecules. Protons and neutrons are like atoms made up of quarks, held together by gluons to form the strong force, with residual forces between them that are like the forces between atoms in molecules, and this is connected through relativity.
Clips
The relationship between the behavior of particles at short distances and high energy is connected through relativity and uncertainty.
1:36:16 - 1:39:09 (02:52)
Summary
The relationship between the behavior of particles at short distances and high energy is connected through relativity and uncertainty. Bringing in probes with large momentum is necessary to analyze short distances in quantum mechanics.
ChapterThe Connection Between Quantum Chromodynamics and Relativity
Episode#187 – Frank Wilczek: Physics of Quarks, Dark Matter, Complexity, Life & Aliens
PodcastLex Fridman Podcast
The relationship between quarks and gluons to nuclear physics is similar to electrons and photons to atomic and molecular physics.
1:39:09 - 1:44:17 (05:08)
Summary
The relationship between quarks and gluons to nuclear physics is similar to electrons and photons to atomic and molecular physics. Recent experiments have indicated that gluons have special properties that enable this relationship.
ChapterThe Connection Between Quantum Chromodynamics and Relativity
Episode#187 – Frank Wilczek: Physics of Quarks, Dark Matter, Complexity, Life & Aliens
PodcastLex Fridman Podcast
QCD explains that protons and neutrons are made up of quarks and gluons, held together by the strong force and residual forces, similar to the way atoms are held together by electrical forces to form molecules.
1:44:17 - 1:48:03 (03:46)
Summary
QCD explains that protons and neutrons are made up of quarks and gluons, held together by the strong force and residual forces, similar to the way atoms are held together by electrical forces to form molecules.