Chapter
Understanding Quantum Mechanics Through Branchial Space
2:37:06 - 2:45:15 (08:08)
The underlying equation for the motion in branchial and physical space is the same. The Feynman path integral formulation allows interpreting quantum mechanics in terms of mathematics that can be explained in ordinary space.
Clips
The Feynman path integral is a mathematical formulation for interpreting quantum processes in quantum mechanics.
2:37:06 - 2:39:23 (02:16)
Summary
The Feynman path integral is a mathematical formulation for interpreting quantum processes in quantum mechanics. It consists of quantum amplitudes, complex numbers that represent probabilities of things happening, and it characterizes how a state in quantum mechanics evolves to another state in branchial space.
ChapterUnderstanding Quantum Mechanics Through Branchial Space
Episode#124 – Stephen Wolfram: Fundamental Theory of Physics, Life, and the Universe
PodcastLex Fridman Podcast
The universe is not only expanding in physical space but also in branchial space, which is likely exponential dimensional and limits to a Hilbert space.
2:39:23 - 2:40:59 (01:36)
Summary
The universe is not only expanding in physical space but also in branchial space, which is likely exponential dimensional and limits to a Hilbert space. This exponential dimensionality makes understanding the nature of branchial space a complex and challenging task.
ChapterUnderstanding Quantum Mechanics Through Branchial Space
Episode#124 – Stephen Wolfram: Fundamental Theory of Physics, Life, and the Universe
PodcastLex Fridman Podcast
The double slit experiment is a phenomenon that occurs at the interface between physical space and branchial space, where quantum mechanics is essentially the motion in branchial space, and the underlying equation for this follows the same mathematical setup as the deflection of geodesics and physical space.
2:40:59 - 2:45:15 (04:16)
Summary
The double slit experiment is a phenomenon that occurs at the interface between physical space and branchial space, where quantum mechanics is essentially the motion in branchial space, and the underlying equation for this follows the same mathematical setup as the deflection of geodesics and physical space.