Both Classical Physics and Quantum Mechanics specify
how things are now. The Newtonian equations predict how they will be later on. The
equations of QM specify the probability of how things will be later on. The
logical explanation is that we have an uncertain future coming into existence
with potential photon ∆E=hf energy, of what might happen, exchanging into the
kinetic Eₖ=½mv² energy of electrons of what is actually happening. This forms
an irreversible probabilistic process with an uncertain future coming into
existence photon by photon with the absorption and emission of light waves.
Art and poetry blog with oil paintings, drawing and short childlike rhymes.Also an artist theory on the physics of ‘time’ as a physical process!
Tuesday, 30 April 2024
Can Particles be Quantum Entangled Across Time?
Sunday, 21 April 2024
A general explanation of the physical Universe formulated by inductive r...
Tuesday, 16 April 2024
Theoretical physicist Sabine Hossenfelder asked "Why we have Units of ti...
Could the reason we measure in Units be because, the future is unfolding in units of unitary action or quanta? If we think of the future as emergent coming into existence quanta by quanta or photon by photon with the spontaneous absorption and emission of light waves. We would have an uncertain probabilistic future unfolding with each photon electron interaction. There is a geometrical aspect to this process with light waves radiating out spherically forming the characteristics of three-dimensional space with one variable in the form of time. This geometrical process would give us a reason way we measure in units as in time, length, energy and mass. At a deeper level, the spherical geometry of this process would explain why we have Ford cycles in our mathematics. Also such an emergent geometry would give us a reason why we have an infinite number of fractions between each two whole numbers.
Sabine Karin Doris Hossenfelder is a German theoretical physicist, philosopher of science, author, science communicator, YouTuber, musician, and singer. She is the author of Lost in Math: How Beauty Leads Physics Astray, which explores the concept of elegance in fundamental physics and cosmology, and of Existential Physics: A Scientist’s Guide to Life’s Biggest Questions.
Reference and Original Video:
The 5 Biggest Physics Mysteries #science #physics
https://www.youtube.com/watch?v=ABwkq...
Sabine Hossenfelder
1.25M subscribers
https://www.youtube.com/@SabineHossen...
https://www.youtube.com/watch?v=rOkGuFWD_Gg
Tuesday, 9 April 2024
In a solar eclipse we can see a hologram or holographic principle
Dyslexic Artist Theory on the Physics of Time
37.8K subscribers 2,513 views Jun 22, 2017
A wave and particle explanation of the electromagnetic spectrum
If the Universe is a hologram or uses the holographic principle in some way there should be extreme conditions when the hologram breaks down and we see the nature of reality in a different way. When a hologram is broken we see a whole image of the hologram in each individual broken part of the hologram this is also seen at a solar eclipse.
Saturday, 6 April 2024
How Quantum Systems (Measurement) are linked to increasing entropy driving towards equilibrium
This video answers the two question or problems we have with the Quantum Measurement System linked with entropy and equilibrium:
1. How can a
closed system form equilibrium or equilibrate?
2. How can unitary Evolution or unit a unitary action increase entropy?
Based on the theory explained in these videos.
The answer to question one is:
1. If the mathematics of Quantum Mechanics represents the physics of time with a probabilistic uncertain ∆×∆pᵪ≥h/4π future coming into existence with the exchange of photon ∆E=hf energy, because it is just the exchange of energy we can have the potential for equilibrium within a closed system.
The answer to question two is:
2. The absorption and emission of light waves are continuously forming photon energy, or unit of unitary action, transforming potential energy PE into the kinetic Eₖ=½mv² energy of electrons or matter will form statistical entropy naturally increase the potential for equilibrium.
The act of measurement in a quantum system forms a photon electron interaction with a probabilistic uncertain future unfolding into a well-defined outcome.
This would also explain why you need to cool down
your Photon detector so much, it is because we have the continuous exchange of
photon energy continuously unfolding all around us forming the continuum of
time!
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Original video:
Quantum Measurements and Equilibration: Obtaining Information via
Entropy Maximisation
FQxI 37.2K subscribers
https://www.youtube.com/watch?v=d0pVo2bX-8c