Chapter
The Equivalence of Energy, Mass, and Frequency
1:12:47 - 1:17:25 (04:37)
This episode explores how energy, mass, and frequency are equivalent according to scientific findings by Einstein and Max Planck. The concept of infinity is also discussed within mathematical and physical limits.
Clips
The concept of infinity is mostly limited to mathematics, but there are some ways in which infinity can manifest itself in the physical universe.
1:12:47 - 1:14:40 (01:52)
Summary
The concept of infinity is mostly limited to mathematics, but there are some ways in which infinity can manifest itself in the physical universe.
ChapterThe Equivalence of Energy, Mass, and Frequency
Episode#85 – Roger Penrose: Physics of Consciousness and the Infinite Universe
PodcastLex Fridman Podcast
In this podcast, the speaker discusses their view on infinity as a boundary in a non-Euclidean geometry, and how this mathematical trick can be applied to real-world phenomena such as radiation and gravitational waves.
1:14:40 - 1:15:59 (01:19)
Summary
In this podcast, the speaker discusses their view on infinity as a boundary in a non-Euclidean geometry, and how this mathematical trick can be applied to real-world phenomena such as radiation and gravitational waves.
ChapterThe Equivalence of Energy, Mass, and Frequency
Episode#85 – Roger Penrose: Physics of Consciousness and the Infinite Universe
PodcastLex Fridman Podcast
The two most famous equations of 20th century physics, Einstein's E equals mc squared and Max Planck's E equals h nu, reveal that energy and mass, and energy and frequency, respectively, are equivalent.
1:15:59 - 1:17:25 (01:25)
Summary
The two most famous equations of 20th century physics, Einstein's E equals mc squared and Max Planck's E equals h nu, reveal that energy and mass, and energy and frequency, respectively, are equivalent. Therefore, if you have a massive entity, such as a massive particle, it is a clock with a very precise frequency.