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


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